CN208993476U - Automatically adjust panoramic skylight glass surface difference equipment - Google Patents
Automatically adjust panoramic skylight glass surface difference equipment Download PDFInfo
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- CN208993476U CN208993476U CN201821676397.6U CN201821676397U CN208993476U CN 208993476 U CN208993476 U CN 208993476U CN 201821676397 U CN201821676397 U CN 201821676397U CN 208993476 U CN208993476 U CN 208993476U
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Abstract
The utility model relates to a kind of automatic adjustment panoramic skylight glass surface difference equipment, for being positioned to skylight sash, and the face adjusted between two glass being placed in skylight sash is poor, so that the face difference between two glass is in pre-set tolerance frame, wherein automatic adjustment panoramic skylight glass surface difference equipment includes: at least one positioning device, for positioning to skylight sash;At least one adsorbent equipment, for adsorbing one of glass in two glass;At least one lifting device, connect with adsorbent equipment, and lifting device controls the lifting of one of glass in two glass by controlling the lifting of adsorbent equipment;And at least one face difference measurer, it is electrically connected with lifting device, face difference measurer is used to measure the face difference between two glass.The face that the utility model can effectively automatically adjust between two glass is poor, so that the face difference between two glass in pre-set tolerance frame, improves product qualification rate.
Description
Technical field
The utility model relates to a kind of automatic adjustment equipment, more particularly to a kind of face for adjusting between two glass
Difference, so that automatic adjustment equipment of the face difference between two glass in pre-set tolerance frame.
Background technique
With the development of automobile industry, components industry is also being rapidly developed.Major main engine plants want the quality of components
Ask higher and higher, the efficiency of production is getting faster.Wherein need to carry out it face difference adjusting, existing skill when panorama glass is installed
The method that the face difference of art is adjusted is included the adjusting of profiling positioning tool, manual adjustment and is adjusted using cubing, manual adjustment and utilization
Cubing adjusting not only adjusts low efficiency, but also is not effective to ensure that the accuracy of face difference and the consistency of each point face difference.
Therefore, used adjusting method is usually the adjusting of profiling positioning tool in auto part plant, but same
As soon as same panorama glass can only be adjusted in profiling positioning tool, needed replacing when replacing not panorama glass of the same race pair
The positioning tool answered since replacement tooling difficulty is big, and then causes production efficiency low.
To sum up, industry is badly in need of positioning that is a kind of while being suitable for various panorama glass and automatic adjustment panorama glass surface at present
The equipment of difference, to solve the limitation of the above-mentioned prior art.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of automatic adjustment panoramic skylight glass surface difference equipment, with
Above-mentioned technical problem is solved, specific technical solution is as follows: a kind of automatic adjustment panoramic skylight glass surface difference equipment is provided, is used for pair
Skylight sash positioning, and the face adjusted between two glass being placed in skylight sash is poor, so that the face between two glass
Difference, wherein automatic adjustment panoramic skylight glass surface difference equipment includes: at least one positioning device, is used in pre-set tolerance frame
It is positioned in skylight sash;At least one adsorbent equipment, for adsorbing one of glass in two glass;At least one
A lifting device, connect with adsorbent equipment, and lifting device controls its in two glass by the lifting of control adsorbent equipment
In a glass lifting;And at least one face difference measurer, it is electrically connected with lifting device, face difference measurer is for measuring
Face difference between two glass, and face to face difference exceed pre-set tolerance frame when, face difference measurer issue a signal, control
Lifting device goes up and down one of glass in two glass, until the face difference between two glass is in preset public affairs
In poor range.
In a kind of possible design, automatic adjustment panoramic skylight glass surface difference equipment further includes bottom plate, at least one is fixed
Position device, at least one adsorbent equipment, at least one lifting device and at least one face difference measurer are arranged on bottom plate.
In a kind of possible design, the quantity of adsorbent equipment is eight, is symmetricly set on bottom plate;And/or positioning dress
The quantity set is two, is arranged at intervals on the middle position of bottom plate;And/or the quantity of lifting device is eight, is correspondingly arranged in
It is connect below each adsorbent equipment and with adsorbent equipment;And/or the quantity of face difference measurer is eight, is symmetricly set on bottom plate
On, eight face difference measurers are used to carry out multimetering to the face difference between two glass.
In a kind of possible design, positioning device further includes driving motor, transmission mechanism and two positioning anchors, and two
Positioning anchor is correspondingly arranged at the two sides of skylight sash, and driving motor is connect by drive rod with two positioning anchors, driving electricity
Machine drives two positioning anchors mobile towards skylight sash and clamps skylight sash by drive rod.
In a kind of possible design, positioning device further includes two sliding rails, is correspondingly arranged in below two positioning anchors,
Two positioning anchors are on corresponding two sliding rails toward polyslip.
In a kind of possible design, transmission mechanism further includes rotor plate and two connecting rods, and rotor plate and driving motor connect
Connect and driven by driving motor and rotated, one end of two connecting rods connect with the both ends of rotor plate respectively, two connecting rods it is another
End is connect with two positioning anchors respectively.
In a kind of possible design, adsorbent equipment further includes sucker and cylinder, sucker be arranged above cylinder and with gas
Cylinder connection, cylinder rise one of glass in two glass of absorption by control sucker.
In a kind of possible design, lifting device further includes servo motor, ball screw and is set on ball screw
Ball screw assembly, ball screw connect with servo motor, and ball screw assembly, is connect with adsorbent equipment, and servo motor passes through ball
Screw rod and ball screw assembly, driving adsorbent equipment lifting.
In a kind of possible design, face difference measurer is linear variable difference transformer (LVDT).
In a kind of possible design, automatic adjustment panoramic skylight glass surface difference equipment further includes sensor, is set to bottom
On plate, sensor is for sensing whether skylight sash is placed in position.
The utility model has had the advantage that compared with prior art:
1, the automatic adjustment panoramic skylight glass surface difference equipment of the utility model can effectively automatically adjust two glass
Between face it is poor so that the face difference between two glass is in pre-set tolerance frame, improve product qualification rate;
2, the driving motor in the automatic adjustment panoramic skylight glass surface difference equipment of the utility model is driven by drive rod
Two positioning anchors are mobile towards glass and clamp glass, and therefore, the positioning of the panorama glass suitable for various sizes is being replaced not
When panorama glass of the same race, do not need to replace corresponding positioning tool, and then improve production efficiency.
Detailed description of the invention
Using attached drawing, the utility model is described in further detail, but the content in attached drawing does not constitute and appoints to the utility model
What is limited.
Fig. 1 is the structural schematic diagram of the automatic adjustment panoramic skylight glass surface difference equipment of an embodiment of the present invention.
Fig. 2 is the plan structure signal of the automatic adjustment panoramic skylight glass surface difference equipment of an embodiment of the present invention
Figure.
Fig. 3 is the front view structure signal of the automatic adjustment panoramic skylight glass surface difference equipment of an embodiment of the present invention
Figure.
Specific embodiment
The utility model discloses a kind of automatic adjustment panoramic skylight glass surface difference equipment 1 of an embodiment, please refers to Fig. 1-
3, for then two glass being placed in skylight sash to skylight sash positioning, and the face adjusted between two glass is poor,
So that the face difference between two glass is in pre-set tolerance frame, then by other equipment or manually by two glass and skylight
Frame is fixed, and the purposes for so automatically adjusting panoramic skylight glass surface difference equipment 1 is not limited thereto, those skilled in the art
It according to the present utility model can instruct and apply the utility model automatic adjustment panoramic skylight glass surface difference equipment 1 in skylight
Installation, can also apply the installation in panorama glass.Existing the utility model is to adjust in automobile skylight glass between two glass
Face difference for be illustrated, automatic adjustment panoramic skylight glass surface difference equipment 1 include at least one positioning device 2, at least one
A adsorbent equipment 3, at least one lifting device 4 and at least one face difference measurer 5, in which:
At least one positioning device 2 please refers to Fig. 1, shown in 2, the present embodiment is disclosed for positioning to skylight sash
Positioning device 2 further include driving motor 21, transmission mechanism 22 and two positioning anchors 23, two positioning anchors 23 are correspondingly arranged
In the two sides of skylight sash, driving motor 21 is connect by transmission mechanism 22 with two positioning anchors 23, and driving motor 21 passes through
Transmission mechanism 22 drives two positioning anchors 23 mobile towards skylight sash and clamps glass, to adapt to skylight sash size not of the same race
Positioning, therefore, the automatic adjustment panoramic skylight glass surface difference equipment 1 of the utility model when replacing not panorama glass of the same race,
Replacement positioning device 2 is not needed, the positioning of panorama glass not of the same race can be completed.
In a preferred embodiment, automatic adjustment panoramic skylight glass surface difference equipment 1 further includes bottom plate 6, please refers to Fig. 1,2
It is shown, at least one positioning device 2, at least one adsorbent equipment 3, at least one lifting device 4 and at least one face difference measurements
Device 5 is arranged on bottom plate 6, bottom plate 6 disclosed in the present embodiment be plate-like structure, can at least one positioning device 2,
At least one adsorbent equipment 3, at least one lifting device 4 and at least one face difference measurer 5 provide rigid support, practical at this
Can there is no particular/special requirement for the selection of the structure of bottom plate 6 in novel, referring to the conventional selection of this field.
In a preferred embodiment, Fig. 1 is please referred to, shown in 2, the quantity of positioning device 2 is two, two positioning devices 2
It is arranged at intervals on the middle position of bottom plate 6 along the length direction of skylight sash, is clamped for the both ends to skylight sash
Positioning, but the quantity of positioning device 2 is not limited thereto, and those skilled in the art can be according to the skylight sash of required positioning
Length selects appropriate number of positioning device, such as can be three, four.
In a preferred embodiment, referring again to shown in Fig. 1,2, positioning device 2 further includes two sliding rails 24, and correspondence is set
It is placed in two positioning anchors, 23 lower section, two sliding rails 24 disclosed in the present embodiment are arranged on bottom plate 6, and two positioning anchors 23 are logical
Overdrive motor 21 and transmission mechanism 22 drive on corresponding two sliding rails 24 toward polyslip, to be pressed from both sides to skylight sash
Tightening position.
In a preferred embodiment, Fig. 1 is please referred to, shown in 2, transmission mechanism 22 further includes rotor plate 221 and two connecting rods
222, rotor plate 222 connect with driving motor 21 and drives rotation by driving motor 21, one end of two connecting rods 222 respectively with
The both ends of rotor plate 221 connect, and the other end of two connecting rods 222 is connect with two positioning anchors 23 respectively, 21 band of driving motor
Turn movable plate 222 rotates, and rotor plate 222 drives two 222 shift reciprocatelies of connecting rod, and then drives two positioning anchors 23 along two
A sliding rail 24 is toward polyslip, but the structure of transmission mechanism 22 is not limited thereto, and those skilled in the art can be practical according to this
Novel introduction selects suitable transmission mechanism 22, such as ball screw structure.
At least one adsorbent equipment 3 is used to adsorb one of glass in two glass, please refers to shown in Fig. 1-3, this
Adsorbent equipment 3 disclosed in embodiment further includes sucker 31 and cylinder 32, and sucker 31 is arranged above cylinder 32 and connects with cylinder 32
It connects, cylinder 32 rises one of glass in two glass of absorption by control sucker 31, but the structure of adsorbent equipment 3 is simultaneously
It is not limited, those skilled in the art can the suitable adsorbent equipment 3 of introduction selection according to the present utility model.
In a preferred embodiment, the quantity of adsorbent equipment 3 is eight, is symmetricly set on bottom plate 6, and eight absorption dresses
It sets 3 corresponding with the edge of glass, is adsorbed for the edge to glass, but the quantity of positioning device 2 is not limited thereto,
Those skilled in the art can be according to the appropriate number of adsorbent equipment 3 of size selection of the glass of required absorption, such as can be
Ten, 12.
At least one lifting device 4 is connect with adsorbent equipment 3, and lifting device 4 is controlled by controlling the lifting of adsorbent equipment 3
The lifting for making one of glass in two glass, please refers to shown in Fig. 3, and lifting device 4 disclosed in the present embodiment further includes
Servo motor 41, ball screw 42 and the ball screw assembly, 43 being set on ball screw 42, ball screw 42 are vertically arranged in
It is connect on bottom plate 6 and with servo motor 41, ball screw assembly, 43 is connect with adsorbent equipment 3, the present embodiment further disclosed rolling
Ballscrew pair 43 is connected with cylinder 32, and servo motor 41 drives the rotation of roller screw rod 42 and drives ball screw assembly, 43 along roller
42 shift reciprocately of screw rod, ball screw assembly, 43 drive cylinder 32 to go up and down, and then the lifting of glass is driven by sucker 31.
In a preferred embodiment, the quantity of lifting device 4 is eight, is correspondingly arranged in each 3 lower section of adsorbent equipment simultaneously
It is connect with adsorbent equipment 3, lifting device 4 disclosed in this implementation is to be arranged in a one-to-one correspondence with adsorbent equipment 3, those skilled in the art
The lifting device 4 of corresponding number can be selected according to the quantity of adsorbent equipment 3, but be not limited thereto, those skilled in the art
Can introduction according to the present utility model select suitable set-up mode, such as a lifting device 4 simultaneously with multiple absorption dress
Set 3 connections.
At least one face difference measurer 5 and lifting device 4 are electrically connected, and Fig. 1 are please referred to, shown in 2, disclosed in the present embodiment
Face difference measurer 5 be linear variable difference transformer (Linear Variable Differential Transformer,
LVDT), but it is not limited thereto, those skilled in the art can the suitable face difference measurements of introduction selection according to the present utility model
Device 5.Face difference measurer 5 is used to measure face difference between two glass, and when difference is beyond pre-set tolerance frame face to face, face
Difference measurer 5 issues a signal, and control lifting device 4 goes up and down one of glass in two glass, until two
Face difference between glass is in the preset margin of tolerance, to improve product qualification rate, as face difference measurer 5 and lifting device
4 connection circuit is not the protection scope of the application, therefore, herein without repeating.
In a preferred embodiment, the quantity of face difference measurer 5 is eight, is symmetricly set on bottom plate 6, and eight face differences are surveyed
Measuring device 5 is used to carry out multimetering to the face difference between two glass, but the quantity of face difference measurer 5 is not limited thereto, this
Field technical staff can according to the face difference measurer 5 of the face difference site setting corresponding number of required measurement between two glass,
It such as can be ten, 12.
In a preferred embodiment, Fig. 1 is please referred to, shown in 2, automatic adjustment panoramic skylight glass surface difference equipment 1 further includes
Sensor 7 is set on bottom plate 6, and sensor 7 is worked as sensor 7 and sensed for sensing whether skylight sash is placed in position
Skylight sash is placed in position, and issues another signal, and control positioning device 2 positions skylight sash, as sensor 7 and is determined
The connection circuit of position device 2, is not the protection scope of the application, therefore, herein without repeating.
Several preferred embodiments of the utility model have shown and described in above description, but as previously described, it should be understood that
The utility model is not limited to forms disclosed herein, and is not to be taken as the exclusion to other embodiments, and can be used for
Other combinations, modifications, and environments, and above-mentioned introduction or correlation can be passed through within the scope of the inventive concept described herein
The technology or knowledge in field are modified.And changes and modifications made by those skilled in the art do not depart from the spirit of the utility model
And range, then it all should be in the protection scope of the appended claims for the utility model.
Claims (10)
1. a kind of automatic adjustment panoramic skylight glass surface difference equipment for positioning to skylight sash, and adjusts and is placed on the day
The face between two glass in window frame is poor, so that the face difference between described two glass is in pre-set tolerance frame,
It is characterized in that, the automatic adjustment panoramic skylight glass surface difference equipment includes:
At least one positioning device, for being positioned to the skylight sash;
At least one adsorbent equipment, for adsorbing one of them described glass in described two glass;
At least one lifting device is connect with the adsorbent equipment, the liter that the lifting device passes through the control adsorbent equipment
The lifting of one of them glass in described two glass is dropped and is controlled;And
At least one face difference measurer is electrically connected with the lifting device, and the face difference measurer is described two for measuring
Face difference between glass, and when the face difference exceeds the pre-set tolerance frame, the face difference measurer issues one
Signal controls the lifting device and goes up and down one of them described glass in described two glass, until described two
Face difference between glass is in the preset margin of tolerance.
2. automatic adjustment panoramic skylight glass surface difference equipment according to claim 1, which is characterized in that the automatic adjustment
Panoramic skylight glass surface difference equipment further includes bottom plate, at least one described positioning device, at least one described adsorbent equipment, described
At least one lifting device and at least one described face difference measurer are arranged on the bottom plate.
3. automatic adjustment panoramic skylight glass surface difference equipment according to claim 2, which is characterized in that the adsorbent equipment
Quantity be eight, be symmetricly set on the bottom plate;And/or the quantity of the positioning device is two, is arranged at intervals on institute
State the middle position of bottom plate;And/or the quantity of the lifting device is eight, is correspondingly arranged in below each adsorbent equipment
And it is connect with the adsorbent equipment;And/or the quantity of the face difference measurer is eight, is symmetricly set on the bottom plate, institute
Eight face difference measurers are stated for carrying out multimetering to the face difference between described two glass.
4. automatic adjustment panoramic skylight glass surface difference equipment according to claim 1, which is characterized in that the positioning device
It further include driving motor, transmission mechanism and two positioning anchors, two positioning anchors are correspondingly arranged at the skylight sash
Two sides, the driving motor connect by the transmission mechanism with two positioning anchors, and the driving motor passes through institute
Transmission mechanism is stated to drive two positioning anchors mobile towards the skylight sash and clamp the skylight sash.
5. automatic adjustment panoramic skylight glass surface difference equipment according to claim 4, which is characterized in that the positioning device
Further include two sliding rails, is correspondingly arranged in below two positioning anchors, two positioning anchors are corresponding described two
Toward polyslip on a sliding rail.
6. automatic adjustment panoramic skylight glass surface difference equipment according to claim 4, which is characterized in that the transmission mechanism
It further include rotor plate and two connecting rods, the rotor plate connect with the driving motor and by the driving motor band turn
Dynamic, one end of two connecting rods is connect with the both ends of the rotor plate respectively, the other end of two connecting rods respectively with institute
State two positioning anchor connections.
7. automatic adjustment panoramic skylight glass surface difference equipment according to claim 1, which is characterized in that the adsorbent equipment
It further include sucker and cylinder, the sucker is arranged above the cylinder and connect with the cylinder, and the cylinder passes through control
The sucker rises and adsorbs one of them described glass in described two glass.
8. automatic adjustment panoramic skylight glass surface difference equipment according to claim 1, which is characterized in that the lifting device
Further include servo motor, ball screw and the ball screw assembly, being set on the ball screw, the ball screw with it is described
Servo motor connection, the ball screw assembly, connect with the adsorbent equipment, the servo motor pass through the ball screw with
The ball screw assembly, drives the adsorbent equipment lifting.
9. automatic adjustment panoramic skylight glass surface difference equipment according to claim 1, which is characterized in that the face difference measurements
Device is linear variable difference transformer.
10. according to automatic adjustment panoramic skylight glass surface difference equipment as claimed in claim 2, which is characterized in that the automatic adjustment
Panoramic skylight glass surface difference equipment further includes sensor, is set on the bottom plate, and the sensor is for sensing the skylight
Whether frame is placed in position.
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CN201821676397.6U CN208993476U (en) | 2018-10-16 | 2018-10-16 | Automatically adjust panoramic skylight glass surface difference equipment |
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CN201821676397.6U CN208993476U (en) | 2018-10-16 | 2018-10-16 | Automatically adjust panoramic skylight glass surface difference equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110220447A (en) * | 2019-07-15 | 2019-09-10 | 芜湖莫森泰克汽车科技股份有限公司 | A kind of automobile skylight glass assembly electronic check tool |
CN113654781A (en) * | 2021-08-16 | 2021-11-16 | 浙江吉利控股集团有限公司 | Device and system are verified to frameless door window glass's problem |
-
2018
- 2018-10-16 CN CN201821676397.6U patent/CN208993476U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110220447A (en) * | 2019-07-15 | 2019-09-10 | 芜湖莫森泰克汽车科技股份有限公司 | A kind of automobile skylight glass assembly electronic check tool |
CN113654781A (en) * | 2021-08-16 | 2021-11-16 | 浙江吉利控股集团有限公司 | Device and system are verified to frameless door window glass's problem |
CN113654781B (en) * | 2021-08-16 | 2023-09-15 | 浙江吉利控股集团有限公司 | Device and system for verifying problem of frameless door window glass |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20211014 Address after: No.128 Changjiang West Road, Hai'an town, Hai'an City, Nantong City, Jiangsu Province 226600 Patentee after: JIANGSU TIEMAO GLASS Co.,Ltd. Address before: 226600 No. 168, Tan Gang Road, Hai'an town, Hai'an County, Nantong City, Jiangsu Province Patentee before: JIANGSU TIEMAO MINGXIN TRAFFIC TECHNOLOGY Co.,Ltd. |
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TR01 | Transfer of patent right |