CN207556485U - It is equipped with the rapid glass monitor station of double detectors in length and breadth - Google Patents
It is equipped with the rapid glass monitor station of double detectors in length and breadth Download PDFInfo
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- CN207556485U CN207556485U CN201721415889.5U CN201721415889U CN207556485U CN 207556485 U CN207556485 U CN 207556485U CN 201721415889 U CN201721415889 U CN 201721415889U CN 207556485 U CN207556485 U CN 207556485U
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Abstract
It is equipped with the rapid glass monitor station of double detectors in length and breadth,Including rack,Testing agency is installed in rack,The conveying mechanism of transmission glass is installed below testing agency,Testing agency is equipped with testing agency's crossbeam and testing agency's curb girder,The first lateral detector and first longitudinal direction detector are movably installed in the testing agency,The second lateral detector is slidably fitted with by transverse slide on testing agency's crossbeam,Glass lateral dimension is calculated by measuring the distance between the first lateral detector and the second lateral detector,Second longitudinal direction detector is slidably fitted with by longitudinal sliding motion device on testing agency's curb girder,Glass longitudinal size is calculated by measuring the distance between first longitudinal direction detector and second longitudinal direction detector,Which solves traditional technology and the situation that glass cannot abut side roller occurs,When glass is not in place or crooked,Cause have the problems such as error when measuring,Realize that data are accurate,Measurement accuracy is stablized.
Description
Technical field
The utility model is related to glass monitor station fields, are specifically equipped with the rapid glass monitor station of double detectors in length and breadth.
Background technology
Glass monitor station equipment is mainly used for measuring size to glass, convenient for subsequently to glass carry out precisely processing or
Processing, in the past in the size detection of glass, using one jiao as original point position point, but this original point position point location is theoretical property
Matter in the detection process of glass, is susceptible to glass not in place, it is impossible to against side roller or crooked situation, cause to measure
When have error, lead to following process decrease in yield.
Utility model content
The purpose of this utility model is that solving the problems, such as above-mentioned existing, provide and a kind of simple and reasonable for structure set in length and breadth
There is the rapid glass monitor station of double detectors, effect is can to accurately measure the effect of size in length and breadth of glass.
Technical solution is used by the utility model solves its technical problem:
It is equipped with the rapid glass monitor station of double detectors in length and breadth, including rack, testing agency, detection machine are installed in rack
The conveying mechanism of transmission glass is installed below structure, testing agency is equipped with testing agency's crossbeam and testing agency's curb girder,
The first lateral detector and first longitudinal direction detector are movably installed in the testing agency, passes through horizontal stroke on testing agency's crossbeam
The second lateral detector is slidably fitted with to carriage, by measuring between the first lateral detector and the second lateral detector
Distance calculate glass lateral dimension, being slidably fitted with second longitudinal direction by longitudinal sliding motion device on testing agency's curb girder detects
Head calculates glass longitudinal size, which solution by measuring the distance between first longitudinal direction detector and second longitudinal direction detector
Certainly traditional technology occur glass cannot abut side roller situation, when glass it is in place or crooked, cause measure when have error etc.
Problem, realization data are accurate, measurement accuracy is stablized.
Longitudinal cylinder is installed, the output shaft of longitudinal cylinder is connected with first longitudinal direction detector, leads in the testing agency
Longitudinal cylinder driving first longitudinal direction detector longitudinal sliding motion is crossed, during original state, longitudinal cylinder driving first longitudinal direction detector is indulged
It draws back a small distance, when glass pushes first longitudinal direction detector close to longitudinal cylinder, first longitudinal direction detector is made to compress glass
Then glass edge obtains glass longitudinal size by calculating first longitudinal direction detector to the distance between second longitudinal direction detector,
It can avoid in place or crooked not causing error due to glass.
Lateral cylinder is installed, the output shaft of lateral cylinder is connected with the first lateral detector, leads in the testing agency
It crosses the first lateral detector of lateral cylinder driving to slide laterally, during original state, the first lateral detector of lateral cylinder driving is horizontal
It draws back a small distance, when glass pushes the first lateral detector close to lateral cylinder, the first lateral detector is made to compress glass
Then glass edge obtains glass lateral dimension by calculating the distance between first lateral detector to the second lateral detector,
It can avoid in place or crooked not causing error due to glass.
In addition, driving motor can be used for the longitudinal cylinder and lateral cylinder or other driving devices are replaced, so as to real
Existing first longitudinal direction detector and the purpose of the first lateral detector displacement.
The transverse slide includes two elastic connections and slides laterally seat, wherein one slides laterally horizontal stroke is equipped on seat
To motor and transversal deceleration case, transversal deceleration case is connected with first gear, is equipped on corresponding testing agency's crossbeam and the
First rack of one gear cooperation, another slide laterally install the first lifting cylinder on seat, is driven on the first lifting cylinder and is connected to the
Two lateral detectors, driving structure is simple, and first gear is driven by cross motor, makes transverse slide along testing agency's horizontal stroke
Beam level is slided, and the second lateral detector is enable to float and detects glass size, improves the use scope of testing agency.
The longitudinal sliding motion device includes the longitudinal sliding motion seat of two elastic connections, wherein being equipped on a longitudinal sliding motion seat vertical
To motor and longitudinal deceleration case, longitudinal deceleration case is connected with second gear, is equipped on corresponding testing agency's curb girder and the
Second rack of two gears cooperation installs the second lifting cylinder on another longitudinal sliding motion seat, is driven on the second lifting cylinder and is connected to the
Two longitudinal detectors, driving structure is simple, drives second gear by longitudinal motor, makes longitudinal sliding motion device along testing agency side
Beam level is slided, and second longitudinal direction detector is enable to float and detects glass size, improves the use scope of testing agency.
In addition, belt can be used for the transverse slide and longitudinal sliding motion device or screw guideway is replaced, from
And realize the purpose that transverse slide and longitudinal sliding motion device slidably reciprocate along testing agency's crossbeam and testing agency's curb girder.
It is described slide laterally seat and fix the first slide bar is installed, another slide laterally is equipped with and the first slide bar is slided on seat
The first sliding block of cooperation is moved, two lateral buffer springs, lateral buffer spring energy are socketed on the first slide bar of the first sliding block both sides
The second lateral detector elasticity is made mildly to contact the edge of glass, transverse slide is avoided quickly to move close to the side of glass
Along when, the second lateral detector with glass edge along contacting firmly, so as to which the second transverse direction detector be caused to damage or break glass edge edge,
Glass is caused to be scrapped.
The longitudinal sliding motion seat is equipped with the second slide bar on fixing, and is equipped on another longitudinal sliding motion seat and is slided with the second slide bar
The second sliding block of cooperation is moved, two longitudinal buffer springs, longitudinal buffer spring energy are socketed on the second slide bar of the second sliding block both sides
Second longitudinal direction detector elasticity is made mildly to contact the edge of glass, longitudinal sliding motion device is avoided quickly to move close to the side of glass
Along when, second longitudinal direction detector and glass edge along contacting firmly, so as to cause the damage of second longitudinal direction detector or break glass edge edge,
Glass is caused to be scrapped.
Described slide laterally is equipped with transvercal induction device on seat, this method can reduce what the second lateral detector slided
Distance, when avoiding size floating big, the second lateral detector slidably reciprocates between not being parked in original point position point, wastes time, together
The loss of Shi Zengjia transverse slides effectively shortens detector travel distance, reduces the detection time of big glass, improves
Detection efficiency.
Longitudinal induction device is installed, this method can reduce the slip of second longitudinal direction detector on the longitudinal sliding motion seat
Distance, when avoiding size floating big, second longitudinal direction detector slidably reciprocates between not being parked in original point position point, wastes time, together
The loss of Shi Zengjia longitudinal sliding motion devices, effectively shortens detector travel distance, reduces the detection time of big glass, improves
Detection efficiency.
The beneficial effects of the utility model are:
The utility model is equipped with the rapid glass monitor station of double detectors in length and breadth, simple in structure, easy to use, passes through measurement
The distance between first lateral detector and the second lateral detector calculate glass lateral dimension, measure first longitudinal direction detector and
The distance between second longitudinal direction detector calculates glass longitudinal size, and glass, which occurs, in which solution traditional technology cannot abut side
The situation of roller when glass in place or crooked, causes have the problem of error when measuring, realizes that data are accurate, measurement accuracy is steady
It is fixed, and horizontal, the longitudinal detector of which second can quickly judge glass size, quickly go to vertical in monitor station centre position
Horizontal another point position, solves in traditional technology that detector is placed on one time in length and breadth, leads to the problem of time of measuring is long, efficiency is low.
Description of the drawings
Fig. 1 is the structure diagram one of the utility model.
Fig. 2 is the structure diagram two of the utility model.
Fig. 3 is enlarged structure schematic diagram at A in Fig. 1.
Fig. 4 is enlarged structure schematic diagram at B in Fig. 1.
Specific embodiment
The utility model is further illustrated with reference to the accompanying drawings and examples.
As shown in Figures 1 to 4, it is equipped with the rapid glass monitor station of double detectors in length and breadth, including rack 1, is installed in rack 1
There is testing agency 2, the lower section of testing agency 2 is equipped with the conveying mechanism 4 of transmission glass 3, and testing agency 2 is equipped with detection machine
Structure crossbeam 5 and testing agency's curb girder 6 are movably installed with the first lateral detector 7 and first longitudinal direction inspection in the testing agency 2
Gauge head 8 is slidably fitted with the second lateral detector 10 by transverse slide 9 on testing agency's crossbeam 5, passes through and measure first
The distance between lateral lateral detector 10 of detector 7 and second calculates 3 lateral dimension of glass, passes through on testing agency's curb girder 6
Longitudinal sliding motion device 11 is slidably fitted with second longitudinal direction detector 12, is examined by measuring first longitudinal direction detector 8 and second longitudinal direction
The distance between gauge head 12 calculates 3 longitudinal size of glass, and glass, which occurs, in which solution traditional technology cannot abut side roller
Situation when glass 3 in place or crooked, causes have the problems such as error when measuring, and realizes that data are accurate, measurement accuracy is stablized.
Longitudinal cylinder 13 is installed, the output shaft 1301 of longitudinal cylinder 13 is connected with first longitudinal direction in the testing agency 2
Detector 8 drives 8 longitudinal sliding motion of first longitudinal direction detector by longitudinal cylinder 13, during original state, the driving of longitudinal cylinder 13 the
One longitudinal 8 longitudinal direction of detector retreats a small distance, when glass 3 pushes first longitudinal direction detector 8 close to longitudinal cylinder 13, makes the
One 8 pressed glass of longitudinal detector, 3 edge, then by calculating first longitudinal direction detector 8 between second longitudinal direction detector 12
Distance obtain 3 longitudinal size of glass, can avoid in place or crooked not causing error due to glass 3.
Lateral cylinder 14 is installed, the output shaft 1401 of lateral cylinder 14 is connected with first laterally in the testing agency 2
Detector 7 is slid laterally by first lateral detector 7 of the driving of lateral cylinder 14, during original state, the driving of lateral cylinder 14 the
One lateral detector 7 laterally retreats a small distance, when glass 3 pushes the first lateral detector 7 close to lateral cylinder 14, makes the
One 7 pressed glass of lateral detector, 3 edge, then by between the lateral detector 10 of the lateral detector 7 to the second of calculating first
Distance obtain 3 lateral dimension of glass, can avoid in place or crooked not causing error due to glass 3.
In addition, driving motor can be used for the longitudinal cylinder 13 and lateral cylinder 14 or other driving devices are replaced, from
And realize the purpose of 7 displacement of lateral detector of first longitudinal direction detector 8 and first.
The transverse slide 9 slides laterally seat 901 including two elastic connections, wherein one slides laterally on seat 901
Cross motor 902 and transversal deceleration case 903 are installed, transversal deceleration case 903 is connected with first gear 904, corresponding detection
The first rack 15 coordinated with first gear 904 is installed, another slide laterally installs first liter on seat 901 on mechanism crossbeam 5
Sending down abnormally ascending cylinder 905 drives on first lifting cylinder 905 and is connected to the second lateral detector 10, and driving structure is simple, passes through cross motor
902 driving first gears 904 make transverse slide 9 be slided along testing agency's crossbeam 5 is horizontal, make the second lateral detector 10
Can float detection 3 size of glass, improve the use scope of testing agency 2.
The longitudinal sliding motion device 11 includes the longitudinal sliding motion seat 1101 of two elastic connections, wherein a longitudinal sliding motion seat 1101
On longitudinal motor 1102 and longitudinal deceleration case 1103 are installed, longitudinal deceleration case 1103 is connected with second gear 1104, corresponding
Testing agency's curb girder 6 on the second rack 16 coordinated with second gear 1104 is installed, pacify on another longitudinal sliding motion seat 1101
The second lifting cylinder 1105 is filled, is driven on the second lifting cylinder 1105 and is connected to second longitudinal direction detector 12, driving structure is simple, passes through
Longitudinal motor 1102 drives second gear 1104, and longitudinal sliding motion device 11 is made to be slided along testing agency's curb girder 6 is horizontal, makes second to indulge
It can float to detector 12 and detect 3 size of glass, improve the use scope of testing agency 2.
In addition, belt can be used for the transverse slide 9 and longitudinal sliding motion device 11 or screw guideway is replaced,
It slidably reciprocates so as to fulfill transverse slide 9 and longitudinal sliding motion device 11 along testing agency's crossbeam 5 and testing agency's curb girder 6
Purpose.
It is described slide laterally seat 901 and fix the first slide bar 906 is installed, it is another slide laterally be equipped on seat 901 with
It is laterally slow to be socketed with two on the first slide bar 906 of 907 both sides of the first sliding block for the first sliding block 907 that first slide bar 906 is slidably matched
Spring 908 is rushed, lateral buffer spring 908 can make the second lateral 10 elasticity of detector mildly contact the edge of glass 3, avoid horizontal stroke
When quickly moving close to the edge of glass to carriage 9, the second lateral detector 10 contacts firmly with 3 edge of glass, so as to make
3 edge of glass is damaged or broken into the second lateral detector 10, glass 3 is caused to be scrapped.
The longitudinal sliding motion seat 1101 is equipped with the second slide bar 1106 on fixing, and is equipped on another longitudinal sliding motion seat 1101
The second sliding block 1107 being slidably matched with the second slide bar 1106 is socketed with two on second slide bar 1106 of 1107 both sides of the second sliding block
Longitudinal buffer spring 1108, longitudinal buffer spring 1108 can make the elastic side for mildly contacting glass 3 of second longitudinal direction detector 12
Edge, when avoiding the longitudinal sliding motion device 11 from quickly moving close to the edge of glass 3, second longitudinal direction detector 12 and 3 edge of glass are hard
Contact, so as to which second longitudinal direction detector 12 be caused to damage or break 3 edge of glass, causes glass 3 to be scrapped.
Described slide laterally is equipped with transvercal induction device 17 on seat 901.
In lateral detection process, for the second lateral detector 10 in original state, transverse slide 9 drives second laterally
Detector 10 rests on the middle part of testing agency's crossbeam 5, makes when glass 3 prolongs the charging of testing agency 2, transvercal induction device 17 detects
The lateral dimension of glass 3, when lateral dimension is more than the half of testing agency's crossbeam 5, transverse slide 9 drives second laterally
Detector 10 is slided in the opposite direction of the bottom of glass 3 to the first lateral detector 7, and reserving enough distances makes second laterally
After detector 10 can detect large-size glass, the second lateral detector 10 of the first lifting cylinder 905 driving rises, then close
And overlay 3 edge of glass and measure, when lateral dimension is less than the half of testing agency's crossbeam 5, determine when glass 3 reaches origin
Behind site, the second lateral detector 10 of the first lifting cylinder 905 driving rises, and the second lateral detector 10 is connect to the first laterally inspection
7 direction of gauge head is slided, and lateral dimension that is then close and overlaying 3 edge of glass measurement glass 3, this method can reduce by the second horizontal stroke
The distance slided to detector 10, when avoiding size floating big, the second lateral detector 10 comes between not being parked in original point position point
It returns and slides, waste time, while increase the loss of transverse slide 9, effectively shorten detector travel distance, reduce big
The detection time of glass, improves detection efficiency.
Longitudinal induction device 18 is installed on the longitudinal sliding motion seat 1101.
In longitudinal detection process, for second longitudinal direction detector 12 in original state, longitudinal sliding motion device 11 drives second to indulge
The middle part of testing agency's longeron 6 is rested on to detector 12, is made when glass 3 prolongs the charging of testing agency 2, longitudinal induction device 18 is examined
The longitudinal size of glass 3 is surveyed, when longitudinal size is more than the half of testing agency's curb girder 6, longitudinal sliding motion device 11 drives second
Longitudinal detector 12 is slided in the bottom of glass 3 to the opposite direction of first longitudinal direction detector 8, and reserving enough distances makes second
Longitudinal detector 12 can detect large-size glass, and the second lifting cylinder 1105 driving second longitudinal direction detector 12 rises, so
It is close afterwards and overlay 3 edge of glass and measure, when longitudinal size is less than the half of testing agency's curb girder 6, when glass 3 reaches
After original point position point, the second lateral detector 12 of the first lifting cylinder 905 driving rises, and second longitudinal direction detector 12 is vertical to first
It is slided to 8 direction of detector, then close and overlay the longitudinal size that 3 edge of glass measures glass 3, this method can reduce the
The distance that two longitudinal detectors 12 slide, when avoiding the size from floating big, second longitudinal direction detector 12 be not parked in original point position point it
Between slidably reciprocate, waste time, while increase the loss of longitudinal sliding motion device 11, effectively shorten detector travel distance, subtract
Lack the detection time of big glass, improve detection efficiency.
Particular embodiments described above, only the utility model preferred embodiment, such as according to the utility model
The equivalent arrangements that claim is done, the technology that should be the utility model are covered.
Claims (9)
1. it is equipped with the rapid glass monitor station of double detectors in length and breadth, including rack(1), rack(1)On testing agency is installed
(2), testing agency(2)Lower section transmission glass is installed(3)Conveying mechanism(4), testing agency(2)It is equipped with detection machine
Structure crossbeam(5)And testing agency's curb girder(6), it is characterised in that:The testing agency(2)On be movably installed with first laterally detection
Head(7)And first longitudinal direction detector(8), testing agency's crossbeam(5)On pass through transverse slide(9)It is slidably fitted with second
Lateral detector(10), by measuring the first lateral detector(7)With the second lateral detector(10)The distance between calculate glass
Glass(3)Lateral dimension, testing agency's curb girder(6)It is upper to pass through longitudinal sliding motion device(11)It is slidably fitted with second longitudinal direction detector
(12), by measuring first longitudinal direction detector(8)With second longitudinal direction detector(12)The distance between calculate glass(3)Longitudinal ruler
It is very little.
2. it is equipped with the rapid glass monitor station of double detectors in length and breadth according to claim 1, it is characterised in that:The detection machine
Structure(2)On longitudinal cylinder is installed(13), longitudinal cylinder(13)Output shaft(1301)It is connected with first longitudinal direction detector(8),
Pass through longitudinal cylinder(13)Drive first longitudinal direction detector(8)Longitudinal sliding motion.
3. it is equipped with the rapid glass monitor station of double detectors in length and breadth according to claim 1, it is characterised in that:The detection machine
Structure(2)On lateral cylinder is installed(14), lateral cylinder(14)Output shaft(1401)It is connected with the first lateral detector(7),
Pass through lateral cylinder(14)The lateral detector of driving first(7)It slides laterally.
4. it is equipped with the rapid glass monitor station of double detectors in length and breadth according to claim 1, it is characterised in that:It is described laterally sliding
Dynamic device(9)Seat is slid laterally including two elastic connections(901), wherein one slides laterally seat(901)On lateral electricity is installed
Machine(902)And transversal deceleration case(903), transversal deceleration case(903)It is connected with first gear(904), corresponding testing agency
Crossbeam(5)On be equipped with and first gear(904)First rack of cooperation(15), it is another to slide laterally seat(901)Upper installation the
One lifting cylinder(905), the first lifting cylinder(905)Upper drive is connected to the second lateral detector(10).
5. it is equipped with the rapid glass monitor station of double detectors in length and breadth according to claim 1, it is characterised in that:The longitudinal direction is sliding
Dynamic device(11)Longitudinal sliding motion seat including two elastic connections(1101), wherein a longitudinal sliding motion seat(1101)On longitudinal direction is installed
Motor(1102)And longitudinal deceleration case(1103), longitudinal deceleration case(1103)It is connected with second gear(1104), corresponding inspection
Survey mechanism curb girder(6)On be equipped with and second gear(1104)Second rack of cooperation(16), another longitudinal sliding motion seat(1101)
The second lifting cylinder of upper installation(1105), the second lifting cylinder(1105)Upper drive is connected to second longitudinal direction detector(12).
6. according to the rapid glass monitor station for being equipped with double detectors described in claim 4 in length and breadth, it is characterised in that:It is described to slide laterally
Seat(901)First slide bar is installed in fixation(906), it is another to slide laterally seat(901)On be equipped with and the first slide bar(906)It is sliding
First sliding block of dynamic cooperation(907), the first sliding block(907)First slide bar of both sides(906)On be socketed with two lateral buffer springs
(908).
7. according to the rapid glass monitor station for being equipped with double detectors described in claim 5 in length and breadth, it is characterised in that:The longitudinal sliding motion
Seat(1101)Second slide bar is installed in fixation(1106), another longitudinal sliding motion seat(1101)On be equipped with and the second slide bar
(1106)The second sliding block being slidably matched(1107), the second sliding block(1107)Second slide bar of both sides(1106)On to be socketed with two vertical
To buffer spring(1108).
8. it is equipped with the rapid glass monitor station of double detectors in length and breadth according to claim 4, it is characterised in that:It is described laterally sliding
Dynamic seat(901)On transvercal induction device is installed(17).
9. according to the rapid glass monitor station for being equipped with double detectors described in claim 5 in length and breadth, it is characterised in that:The longitudinal sliding motion
Seat(1101)On longitudinal induction device is installed(18).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721415889.5U CN207556485U (en) | 2017-10-30 | 2017-10-30 | It is equipped with the rapid glass monitor station of double detectors in length and breadth |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721415889.5U CN207556485U (en) | 2017-10-30 | 2017-10-30 | It is equipped with the rapid glass monitor station of double detectors in length and breadth |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN207556485U true CN207556485U (en) | 2018-06-29 |
Family
ID=62675093
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201721415889.5U Active CN207556485U (en) | 2017-10-30 | 2017-10-30 | It is equipped with the rapid glass monitor station of double detectors in length and breadth |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN207556485U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107677231A (en) * | 2017-10-30 | 2018-02-09 | 广东盈贯新机械有限公司 | A kind of rapid glass monitor station for being provided with double detectors in length and breadth |
| CN109772723A (en) * | 2019-03-14 | 2019-05-21 | 福耀集团长春有限公司 | A kind of vehicle glass detection system and detection method |
-
2017
- 2017-10-30 CN CN201721415889.5U patent/CN207556485U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107677231A (en) * | 2017-10-30 | 2018-02-09 | 广东盈贯新机械有限公司 | A kind of rapid glass monitor station for being provided with double detectors in length and breadth |
| CN107677231B (en) * | 2017-10-30 | 2024-08-13 | 广东盈贯新机械有限公司 | Quick glass detection table with double detection heads arranged vertically and horizontally |
| CN109772723A (en) * | 2019-03-14 | 2019-05-21 | 福耀集团长春有限公司 | A kind of vehicle glass detection system and detection method |
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