CN207204641U - A kind of automatic measuring thickness and classifying equipoment - Google Patents
A kind of automatic measuring thickness and classifying equipoment Download PDFInfo
- Publication number
- CN207204641U CN207204641U CN201720374617.9U CN201720374617U CN207204641U CN 207204641 U CN207204641 U CN 207204641U CN 201720374617 U CN201720374617 U CN 201720374617U CN 207204641 U CN207204641 U CN 207204641U
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- China
- Prior art keywords
- conveyer belt
- glass
- hydraulic cylinder
- automatic measuring
- measuring thickness
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
A kind of automatic measuring thickness and classifying equipoment are the utility model is related to, including C/V1 mechanisms, the AOI testing agencies for detecting glass rank data, the C/V2 mechanisms for judging glass rank after comprehensive analysis and the classification placement mechanism set gradually according to conveyer belt transmission direction;The C/V1 mechanisms include the first hydraulic cylinder above conveyer belt and the pressure-bearing platform positioned at conveyer belt side;The hydraulic stem lower end of the first hydraulic cylinder is connected with a control slab;The control slab lower surface is provided with multiple rollers, and roller rolls along conveyer belt direction of transfer;The roller inwall is provided with first pressure sensor;The control side wall of slab one is connected with the connecting rod of a L-type;The connecting rod other end is provided with piezoelectric patches;The piezoelectric patches lower surface is provided with elastic component;The piezoelectric patches is located at directly over pressure-bearing platform.
Description
Technical field
A kind of automatic measuring thickness and classifying equipoment are the utility model is related to, belongs to glass processing field.
Background technology
Today's society, needing to measure the glass after the thickness of glass, thickness measuring in glass machining technique needs to be detected,
Inspection result after having been checked according to AOI (third party's offer) carries out graded operation to glass, due to the glass used at present
Thickness measuring is substantially artificial thickness measuring, measurement be present and is forbidden, measures error, causes follow-up operation bad, work greatly reduces
Efficiency, and artificial workload is increased, and be typically to be classified using concentration after having collected glass during glass graded operation,
Not only cause the pre- storage of glass of collection device limited, and classification efficiency is low.
Utility model content
In order to solve the above-mentioned technical problem, the utility model provides a kind of automatic measuring thickness and classifying equipoment, effective to improve
The degree of accuracy of measurement, reduce measurement error, and then improve operating efficiency, reduce artificial workload, and significantly
The pre- storage of glass of collection device is added, improves the efficiency of classification.
The technical solution of the utility model is as follows:
A kind of automatic measuring thickness and classifying equipoment, including set gradually according to conveyer belt transmission direction C/V1 mechanisms, for examining
The AOI testing agencies of glass rank data, the C/V2 mechanisms for judging glass rank after comprehensive analysis and classification is surveyed to place
Mechanism;The C/V1 mechanisms include the first hydraulic cylinder above conveyer belt and the pressure-bearing platform positioned at conveyer belt side;Institute
The hydraulic stem lower end for stating first hydraulic cylinder is connected with a control slab;The control slab lower surface is provided with multiple rollers, roller edge
Conveyer belt direction of transfer rolls;The roller inwall is provided with first pressure sensor;Control the connection of the side wall of slab one and a L-type
Bar connects;The connecting rod other end is provided with piezoelectric patches;The piezoelectric patches lower surface is provided with elastic component;The piezoelectric patches position
Directly over pressure-bearing platform;The classification placement mechanism includes grade glass collecting tank group and consumptive material collecting tank;The qualified glass
Glass collecting tank group is located at conveyer belt both sides;The consumptive material collecting tank is positioned at transmission end of tape, for accepting the consumptive materials such as feeding spaced papers;Institute
Stating grade glass collecting tank group includes multiple log washers;Log washer openend flushes with conveyer belt and is resisted against conveyer belt side;
Second hydraulic cylinder is provided with above the log washer;The hydraulic stem of the second hydraulic cylinder can vertical conveyors direction move and connect
It is connected to push pedal.
Wherein, the C/V1 mechanisms also include the first motor, and rotating shaft one end of first motor is arranged with runner;It is described
The transmission wheel belt of runner and conveyer belt connects.
Wherein, the classification trench bottom is provided with the 3rd hydraulic cylinder;The hydraulic stem upper end of 3rd hydraulic cylinder is connected with
Splicing plate;The splicing plate inwall is provided with second pressure sensor.
Wherein, the clean mechanism is including the suction box above conveyer belt and at the dust of conveyer belt side
Manage tower;The suction box is connected by a conduit with dust treating column;The suction box is provided with air exhauster with conduit connectivity part;
The suction box lower surface is communicated with more hoses;The hose lower end connects with the middle part of an elastic tube;It is described
Elastic tube is arranged above conveyer belt parallel to conveyer belt;The elastic tube side wall is provided with multiple sand inlets.
Wherein, the automatic measuring thickness and classifying equipoment also include controller;The controller senses with first pressure respectively
Device and second pressure sensor communicate to connect and control first hydraulic cylinder and the start and stop of the 3rd hydraulic cylinder.
The utility model has the advantages that:
1st, a kind of automatic measuring thickness of the utility model and classifying equipoment, effectively raise the degree of accuracy of measurement, reduce survey
Amount error, and then operating efficiency is improved, reduce artificial workload, and considerably increase the glass of classification placement mechanism
Pre- storage, improve the efficiency of classification.
2nd, a kind of automatic measuring thickness of the utility model and classifying equipoment, passed by setting the first motor to be effectively controlled glass
The speed sent, reduce the breakage rate of glass.
3rd, a kind of automatic measuring thickness of the utility model and classifying equipoment, multistage glass is collected by setting log washer to realize
Purpose, improve the pre- storage of glass of collection device.
4th, a kind of automatic measuring thickness of the utility model and classifying equipoment, by set the 3rd hydraulic cylinder effectively reduce due to
Glass is fallen directly into frame, the problem of causing glass breakage.
5th, a kind of automatic measuring thickness of the utility model and classifying equipoment, automated job, the production efficiency of detection operation is improved.
6th, a kind of automatic measuring thickness of the utility model and classifying equipoment, by setting elastic component C/V1 mechanisms 1 to adapt to respectively
The glass thickness measuring of kind thickness.
Brief description of the drawings
Fig. 1 is the overall schematic for representing a kind of automatic measuring thickness of the utility model and classifying equipoment;
Fig. 2 is the structural representation for the C/V1 mechanisms for representing a kind of automatic measuring thickness of the utility model and classifying equipoment;
Fig. 3 is the cooperation signal of the first motor and conveyer belt that represent a kind of automatic measuring thickness of the utility model and classifying equipoment
Figure;
Fig. 4 is the structural representation for the classification placement mechanism for representing a kind of automatic measuring thickness of the utility model and classifying equipoment;
Fig. 5 is the internal structure schematic diagram for the log washer for representing a kind of automatic measuring thickness of the utility model and classifying equipoment;
Fig. 6 is the structural representation for the clean mechanism for representing a kind of automatic measuring thickness of the utility model and classifying equipoment;
Fig. 7 is the structural representation for the elastic tube for representing a kind of automatic measuring thickness of the utility model and classifying equipoment.
Reference is expressed as in figure:
1-C/V1 mechanisms, 11- conveyer belts, 12- first hydraulic cylinders, 13- pressure-bearings platform, 14- controls slab, 15- connecting rods, 16-
Piezoelectric patches, 161- elastic components, the motors of 17- first, 18- runners, 19- transmission wheels, 2-AOI testing agencies, 3-C/V2 mechanisms, 4- divide
Level placement mechanism, the motors of 41- second, 411- support bars, 42- grade glass collecting tanks group, 421- log washers, 43- consumptive materials are received
Collect groove, 44- second hydraulic cylinders, 441- push pedals, 43- consumptive materials collecting tank, the hydraulic cylinders of 5- the 3rd, 51- splicings plate, 52- second pressures
Sensor, 6- rollers, 61- first pressures sensor, 7- clean mechanism, 71- suction boxs, 72- dust treating column, 73- conduits,
74- hoses, 75- elastic tubes, 76- air exhausters.
Embodiment
The utility model is described in detail with specific embodiment below in conjunction with the accompanying drawings.
Referring to shown in Fig. 1, Fig. 2, a kind of automatic measuring thickness and classifying equipoment, including set successively according to the transmission direction of conveyer belt 11
The C/V1 mechanisms 1 put, the AOI testing agencies 2 for detecting glass rank data, for after comprehensive analysis judge glass rank
C/V2 mechanisms 3 and classification placement mechanism 4;The C/V1 mechanisms 1 include the first hydraulic cylinder 12 positioned at the top of conveyer belt 11
And the pressure-bearing platform 13 positioned at the side of conveyer belt 11;The hydraulic stem lower end of the first hydraulic cylinder 12 is connected with a control slab 14;
Control slab 14 lower surface is provided with multiple rollers 6, and roller 6 rolls along the direction of transfer of conveyer belt 11;The inwall of roller 6 is set
It is equipped with first pressure sensor 61;The control side wall of slab 14 1 is connected with the connecting rod 15 of a L-type;The other end of connecting rod 15 is set
It is equipped with piezoelectric patches 16;The lower surface of piezoelectric patches 16 is provided with elastic component 161;The piezoelectric patches 16 be located at pressure-bearing platform 13 just on
Side.
Referring to Fig. 3, including the first motor 17, rotating shaft one end of first motor 17 is arranged with runner 18;The runner
18 are connected with the belt of transmission wheel 19 of conveyer belt 11, for adjusting the transfer rate of conveyer belt 11.
Referring to Fig. 4, the classification placement mechanism 4 includes grade glass collecting tank group 42 and consumptive material collecting tank 43;It is described
Grade glass collecting tank group 42 is located at the both sides of conveyer belt 11;The consumptive material collecting tank 43 is located at the end of conveyer belt 11, for accepting
The consumptive materials such as feeding spaced papers;The grade glass collecting tank group 42 includes multiple log washers 421;The openend of log washer 421 and conveyer belt
11 flush and are resisted against the side of conveyer belt 11;The second motor 41 is provided between the log washer 421;Second motor 41
Rotating shaft is vertically connected with support bar 411;The support bar 411 is in same level with conveyer belt 11, the support bar 411
The other end is connected with second hydraulic cylinder 44;The second hydraulic cylinder 44 is located at the top of log washer 421;The second hydraulic cylinder 44
Hydraulic stem can the direction of vertical conveyors 11 move and be connected with push pedal 441, for the glass on conveyer belt 11 to be pushed into log washer
In 421.
Referring to Fig. 6 and Fig. 7, the clean mechanism 7 is included positioned at the suction box 71 of the top of conveyer belt 11 and positioned at transmission
Dust treating column 72 with 11 sides;The suction box 71 is connected by a conduit 73 with dust treating column 72;The suction box
71 are provided with air exhauster 76 with the connectivity part of conduit 73;The lower surface of suction box 71 is communicated with more hoses 74;The suction
The lower end of dirt flexible pipe 74 connects with the middle part of an elastic tube 75;The elastic tube 75 is arranged on conveyer belt 11 parallel to conveyer belt 11
Side;The side wall of elastic tube 75 is provided with multiple sand inlets, when the communicated band 11 of glass enters 71 lower section of suction box, elastic tube 75
Close to glass surface, until glass leaves the lower section of suction box 71, at this moment between in section, because air exhauster 76 is in suction box 71
Constantly work, therefore the sand inlet on elastic tube 75 produces larger suction, by the dust connection air suction dust suction on glass
In case 71, then enter dust treating column 72 through conduit 73 and handled.
Referring to figure Fig. 3 and Fig. 5, the bottom of log washer 421 is provided with the 3rd hydraulic cylinder 5;The liquid of 3rd hydraulic cylinder 5
Depression bar upper end is connected with splicing plate 51;The inwall of splicing plate 51 is provided with second pressure sensor 52;The splicing plate 51 compares
The cross section of log washer 421 is small, and when glass is by splicing plate 51, second pressure sensor 52 senses glass weight, and
Three hydraulic cylinders 5 drive splicing plate 51 to move down the distance of thickness of glass, its glass top surface is flushed with conveyer belt 11
It is easy to accept next block of glass, because the quantity of glass is continuously increased, pressure also constantly increases, and promotes splicing plate 51 constantly downward
Move.
Wherein, the automatic measuring thickness and classifying equipoment also include controller (not shown);The controller respectively with
First pressure sensor 61 and second pressure sensor 52 communicate to connect and control opening for the hydraulic cylinder 5 of first hydraulic cylinder 12 and the 3rd
Stop.
Operation principle of the present utility model:
Feeding spaced papers are placed on conveyer belt 11, then place glass on feeding spaced papers, by regulating and controlling turning for the first motor 17
Speed adjusts the speed that conveyer belt 11 transmits glass, and glass first passes through C/V1 mechanisms 1, now first hydraulic cylinder 12 is started working,
Control slab 14 is driven to run downwards, until roller 6 extrudes with glass top surface, now first pressure sensor 61 is sent out controller
Go out signal, and then controller control first hydraulic cylinder 12 is stopped, because connecting rod 15 is connected with controlling the side wall of slab 14, together
When connecting rod 15 drive piezoelectric patches 16 to run downwards, until elastic component 161 extrudes the upper surface of pressure-bearing platform 13, now due to pressure not
Together, the size of electric current changes, and then measures the thickness of glass, when glass is sent out between conveyer belt 11 and roller 6
When, first pressure sensor 61 sends signal, and then the controller control reverse operation of first hydraulic cylinder 12 to controller, under preparation
Once-through operation, now glass enter AOI testing agencies 2 detect and by C/V2 mechanisms 3 carry out judge glass rank, last glass
Glass enters classification placement mechanism 4, and now the second hydraulic cylinder 44 of the top of log washer 421 drives push pedal 441 to be slowly pushed into glass
On splicing plate 51 in the log washer 421 of the opposite side of conveyer belt 11, now the original state of splicing plate 51 flushes with conveyer belt 11, together
When second pressure sensor 52 signal is sent to controller, and then controller controls the hydraulic stem of the 3rd hydraulic cylinder 5 to drive splicing
The upper surface for the glass that plate 51 is moved downward on splicing plate 51 is stopped when being flushed with conveyer belt 11, now below glass
Feeding spaced papers are sent into consumptive material collecting tank 43 by conveyer belt 11 and are collected.
Embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, it is every
The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in
Other related technical areas, similarly it is included in scope of patent protection of the present utility model.
Claims (5)
1. a kind of automatic measuring thickness and classifying equipoment, it is characterised in that:Including the use set gradually according to conveyer belt (11) transmission direction
In the cleaning clean mechanism (7) of glass, C/V1 mechanisms (1), the AOI testing agencies (2) for detecting glass rank data, it is used for
The C/V2 mechanisms (3) and classification placement mechanism (4) of glass rank are judged after comprehensive analysis;The C/V1 mechanisms (1) include position
First hydraulic cylinder (12) above conveyer belt (11) and the pressure-bearing platform (13) positioned at conveyer belt (11) side;First liquid
The hydraulic stem lower end of cylinder pressure (12) is connected with a control slab (14);Described control slab (14) lower surface is provided with multiple rollers (6),
Roller (6) rolls along conveyer belt (11) direction of transfer;First pressure sensor (61) is provided with the roller (6);Control slab
(14) one side walls are connected with connecting rod (15) one end of a L-type;Connecting rod (15) other end is provided with piezoelectric patches (16);Institute
State piezoelectric patches (16) lower surface and be provided with elastic component (161);The piezoelectric patches (16) is located at directly over pressure-bearing platform (13);Described point
Level placement mechanism (4) includes grade glass collecting tank group (42) and consumptive material collecting tank (43);The grade glass collecting tank group
(42) it is located at conveyer belt (11) both sides;The consumptive material collecting tank (43) is located at conveyer belt (11) end;The grade glass is collected
Groove group (42) includes multiple log washers (421);Log washer (421) open end flushes with conveyer belt (11) and is resisted against conveyer belt
(11) side;Second hydraulic cylinder (44) is provided with above the log washer (421);The hydraulic stem of the second hydraulic cylinder (44) hangs down
Move and be connected with push pedal (441) in straight conveyer belt (11) direction.
2. a kind of automatic measuring thickness and classifying equipoment as claimed in claim 1, it is characterised in that:Including the first motor (17), institute
The rotating shaft one end for stating the first motor (17) is arranged with runner (18);The runner (18) and transmission wheel (19) skin of conveyer belt (11)
Band connection.
3. a kind of automatic measuring thickness and classifying equipoment as claimed in claim 2, it is characterised in that:Log washer (421) bottom
It is provided with the 3rd hydraulic cylinder (5);The hydraulic stem upper end of 3rd hydraulic cylinder (5) is connected with splicing plate (51);The splicing plate
(51) inwall is provided with second pressure sensor (52).
4. a kind of automatic measuring thickness and classifying equipoment as claimed in claim 3, it is characterised in that:The clean mechanism (7) includes
Suction box (71) above conveyer belt (11) and the dust treating column (72) positioned at conveyer belt (11) side;The dust suction
Case (71) is connected by a conduit (73) with dust treating column (72);The suction box (71) is provided with conduit (73) connectivity part
Air exhauster (76);Suction box (71) lower surface is communicated with more hoses (74);Hose (74) lower end with
The middle part connection of one elastic tube (75);The elastic tube (75) is arranged above conveyer belt (11) parallel to conveyer belt (11);Institute
State elastic tube (75) side wall and be provided with multiple sand inlets.
5. a kind of automatic measuring thickness and classifying equipoment as claimed in claim 4, it is characterised in that:The automatic measuring thickness and classification are set
It is standby also to include controller;The controller communicates to connect with first pressure sensor (61) and second pressure sensor (52) respectively
And control the start and stop of first hydraulic cylinder (12) and the 3rd hydraulic cylinder (5).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720374617.9U CN207204641U (en) | 2017-04-11 | 2017-04-11 | A kind of automatic measuring thickness and classifying equipoment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720374617.9U CN207204641U (en) | 2017-04-11 | 2017-04-11 | A kind of automatic measuring thickness and classifying equipoment |
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Publication Number | Publication Date |
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CN207204641U true CN207204641U (en) | 2018-04-10 |
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ID=61809568
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CN201720374617.9U Expired - Fee Related CN207204641U (en) | 2017-04-11 | 2017-04-11 | A kind of automatic measuring thickness and classifying equipoment |
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CN (1) | CN207204641U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113210281A (en) * | 2021-05-07 | 2021-08-06 | 南通嘉正光学科技有限公司 | Size detection device for machined part |
CN114904781A (en) * | 2021-02-10 | 2022-08-16 | 燕龙基(徐州)再生资源利用有限公司 | Waste glass size screening equipment |
CN115999936A (en) * | 2023-03-22 | 2023-04-25 | 唐山飞远科技有限公司 | Ultra-white embossed solar glass raw sheet thickness measuring equipment |
-
2017
- 2017-04-11 CN CN201720374617.9U patent/CN207204641U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114904781A (en) * | 2021-02-10 | 2022-08-16 | 燕龙基(徐州)再生资源利用有限公司 | Waste glass size screening equipment |
CN113210281A (en) * | 2021-05-07 | 2021-08-06 | 南通嘉正光学科技有限公司 | Size detection device for machined part |
CN115999936A (en) * | 2023-03-22 | 2023-04-25 | 唐山飞远科技有限公司 | Ultra-white embossed solar glass raw sheet thickness measuring equipment |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180410 Termination date: 20190411 |