CN205826422U - Intensity detection mould - Google Patents
Intensity detection mould Download PDFInfo
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- CN205826422U CN205826422U CN201620761555.2U CN201620761555U CN205826422U CN 205826422 U CN205826422 U CN 205826422U CN 201620761555 U CN201620761555 U CN 201620761555U CN 205826422 U CN205826422 U CN 205826422U
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- briquetting
- glass substrate
- intensity detection
- detection mould
- pressure head
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Abstract
This utility model is about a kind of intensity detection mould, relates to glass substrate device for detecting performance field, it is therefore an objective to can be used for detecting the intensity of glass substrate edge, thus more suitable for practicality.The technical scheme of main employing is: intensity detection mould, comprising: upper bolster, die shoe, at least one first briquetting, at least two the second briquetting and device preventing tilting;First end of the first briquetting is connected with upper bolster;First end of the second briquetting is connected with die shoe;Device preventing tilting is arranged on the second briquetting, for vertically being placed by glass substrate.Compared to prior art, the intensity detection mould that this utility model provides, can make glass substrate vertical be positioned in the middle of the first briquetting and the second briquetting, the lower edges making glass substrate is conflicted with the first briquetting and the second briquetting respectively, by the first briquetting and the second briquetting, glass substrate is applied pressure, it is achieved the detection to glass substrate edge intensity.
Description
Technical field
This utility model relates to glass substrate device for detecting performance field, particularly relates to a kind of intensity detection mould.
Background technology
Glass substrate is the basic element of character constituting liquid crystal display, along with the extensive application of liquid crystal display, glass
Substrate is also widely used.
When using glass substrate to manufacture display, it is desirable to glass substrate has some strength, strong to glass substrate at present
The detection of degree is by applying pressure on the plate face of glass substrate, then by different pressures lower glass substrate deformation extent,
And pressure during detection glass substrate fracture, as intensity and the index of anti-bending strength of glass substrate.
But, prior art is not exclusively used in the detection mould of glass substrate edge intensity, if using existing mould
Tool goes to detect the edge strength of glass substrate, the state that glass substrate opposing mold tilts easily occurs, and causes detection
Result error is excessive, it is impossible to detect glass substrate edge strength values accurately.
Utility model content
Main purpose of the present utility model is, it is provided that the intensity detection mould of a kind of new structure, skill to be solved
Art problem is the intensity that can be used for detecting glass substrate edge, thus more suitable for practicality.
The purpose of this utility model and solve it and technical problem is that and realize by the following technical solutions.According to this practicality
A kind of intensity detection mould of novel proposition, comprising:
Upper bolster;
Die shoe;
At least one first briquetting, the first end of described first briquetting is connected with described upper bolster;
At least two the second briquetting, the first end of described second briquetting is connected with described die shoe;
Device preventing tilting, described device preventing tilting is arranged on described second briquetting, for vertically being placed by glass substrate.
The purpose of this utility model and solve its technical problem and also can be applied to the following technical measures to achieve further.
Preferably, aforesaid intensity detection mould, the first end of wherein said first briquetting slides even with described upper bolster
Connect;
First end of described second briquetting is slidably connected with described die shoe.
Preferably, aforesaid intensity detection mould, the side of wherein said upper bolster is provided with scale, described die shoe
Side be provided with scale.
Preferably, aforesaid intensity detection mould, the first wherein said briquetting also includes the first pressure head, described first pressure
Head is connected to the second end of described first briquetting;
Described second briquetting also includes that the second pressure head, described second pressure head are connected to the second end of described second briquetting.
Preferably, aforesaid intensity detection mould, the first wherein said pressure head leads to the second end of described first briquetting
Cross bolt to connect, or the second end of described first pressure head and described first briquetting glueds joint;
Described second pressure head is bolted with the second end of described second briquetting, or described second pressure head is with described
Second end of the second briquetting glueds joint.
Preferably, aforesaid intensity detection mould, wherein said device preventing tilting includes two vertical holders, described
Two vertical holders are separately positioned on the second briquetting described in any two.
Preferably, aforesaid intensity detection mould, wherein said vertical holder includes two vertical fixed blocks, described
Being provided with the gap of predefined size between two vertical fixed blocks, described gap is for vertically placing described glass substrate.
Preferably, aforesaid intensity detection mould, wherein said each vertical fixed block includes again the first vertical fixed block
With the second vertical fixed block;
Wherein, one end of the described first vertical fixed block is connected with described second briquetting, the described first vertical fixed block
The other end is slidably connected with the described second vertical fixed block.
Preferably, aforesaid intensity detection mould, the first wherein said briquetting quantity is two, described second briquetting
Quantity is two.
Preferably, aforesaid intensity detection mould, wherein said upper bolster is provided with the first T-shaped chute, described
First end of one briquetting is provided with the first T-shaped slide block being slidingly fitted with described first T-shaped chute;
Being provided with the second T-shaped chute on described die shoe, the first end of described second briquetting is provided with second T-shaped with described
The second T-shaped slide block that chute is slidingly fitted.
Preferably, aforesaid intensity detection mould, the first wherein said briquetting is by holding out against screw and described upper bolster
Fastening;
Described second briquetting fastens with described die shoe by holding out against screw.
By technique scheme, this utility model intensity detection mould at least has the advantage that
In technical solutions of the utility model, intensity detection mould include upper bolster, die shoe, at least one first briquetting,
At least two the second briquetting and device preventing tilting, device preventing tilting can make by placement vertical for glass substrate in a mold
What glass substrate was vertical is placed in the middle of the first briquetting and the second briquetting, make the lower edges of glass substrate respectively with the first briquetting
Conflict with the second briquetting.Compared to prior art, the detection to glass substrate intensity is by executing on the plate face of glass substrate
Plus-pressure, then by different pressures lower glass substrate deformation extent, and pressure during detection glass substrate fracture, as glass
The intensity of glass substrate and the index of anti-bending strength, be not exclusively used in the mould to glass substrate edge intensity detection.This practicality is new
The intensity detection mould that type provides solves the problems referred to above, it is possible to when the intensity detection mould peace that this utility model is provided by user
It is contained on experimental facilities, it is possible to make vertical being positioned in the middle of the first briquetting and the second briquetting of glass substrate, make glass substrate
Lower edges is conflicted with the first briquetting and the second briquetting respectively, by the first briquetting and the second briquetting, glass substrate is applied pressure
Power, it is achieved the detection to glass substrate edge intensity.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model
Art means, and can being practiced according to the content of description, below with preferred embodiment of the present utility model and coordinate accompanying drawing detailed
Describe in detail bright as after.
Accompanying drawing explanation
Fig. 1 is a kind of intensity detection mould structure schematic diagram that embodiment of the present utility model provides.
Detailed description of the invention
By further illustrating the technological means and effect that this utility model taked by reaching predetermined utility model purpose,
Below in conjunction with accompanying drawing and preferred embodiment, to according to its detailed description of the invention of intensity detection mould that the utility model proposes, knot
Structure, feature and effect thereof, after describing in detail such as.In the following description, what different " embodiments " or " embodiment " referred to differs
Surely it is same embodiment.Additionally, special characteristic, structure or feature in one or more embodiment can be by any suitable form groups
Close.
As it is shown in figure 1, a kind of intensity detection mould that an embodiment of the present utility model proposes, comprising: upper bolster
1, die shoe 2, at least one first briquetting 3, at least two the second briquetting 4 and device preventing tilting 5;The first of first briquetting 3
End is connected with upper bolster 1;First end of the second briquetting 4 is connected with die shoe 2;Device preventing tilting 5 is arranged on the second briquetting 4,
For glass substrate is vertically placed.
When the intensity detection mould using this utility model to provide, first the first briquetting and the second briquetting are respectively mounted
On upper bolster and die shoe, afterwards upper bolster and die shoe are separately mounted on experimental facilities, finally by device preventing tilting
It is arranged on the second briquetting, by the peace of the intensity detection mould relative experimental equipment that above-mentioned installation this utility model provides
Dress.When detecting the intensity of glass substrate, first reconcile second briquetting position at die shoe according to the size of glass substrate,
And conciliation the first briquetting is in the position of upper bolster, is then placed in device preventing tilting by glass substrate, glass substrate is made to erect
Straight between the first briquetting and the second briquetting, drive upper bolster at vertical direction relative to die shoe finally by experimental facilities
Motion, the first briquetting is pressed in the top edge of glass substrate, and the second briquetting is pressed in the lower limb of glass substrate, further by experiment
Equipment increases by the first briquetting and is pressed in the pressure of glass substrate top edge, the experiment of intensity detection until glass substrate has ftractureed,
Experimental facilities pressure applied when experimental facilities can record glass substrate cracking, and then obtain glass substrate limit by conversion
The strength values of edge.
Concrete, the intensity detection mould of this utility model offer, it can experimental need to arrange the first briquetting
Quantity, and the quantity of the second briquetting, such as the quantity of the first briquetting can be set to two, the quantity of the second briquetting sets
Be set to two, 4 of glass substrate edge carried out intensity detection, device preventing tilting can be arranged to regulate length or
The device of person's height, can regulate device preventing tilting according to the size of glass substrate, it is ensured that what glass substrate can be stable is perpendicular
Directly it is placed between the first briquetting and the second briquetting.
In technical solutions of the utility model, intensity detection mould include upper bolster, die shoe, at least one first briquetting,
At least two the second briquetting and device preventing tilting, device preventing tilting can make by placement vertical for glass substrate in a mold
What glass substrate was vertical is placed in the middle of the first briquetting and the second briquetting, make the lower edges of glass substrate respectively with the first briquetting
Conflict with the second briquetting.Compared to prior art, the detection to glass substrate intensity is by executing on the plate face of glass substrate
Plus-pressure, then by different pressures lower glass substrate deformation extent, and pressure during detection glass substrate fracture, as glass
The intensity of glass substrate and the index of anti-bending strength, be not exclusively used in the mould to glass substrate edge intensity detection.This practicality is new
The intensity detection mould that type provides solves the problems referred to above, and the intensity detection mould provided by this utility model as user is arranged on
On experimental facilities, it is possible to make vertical being positioned in the middle of the first briquetting and the second briquetting of glass substrate, make the upper and lower of glass substrate
Conflicting with the first briquetting and the second briquetting respectively in edge, by the first briquetting and the second briquetting, glass substrate is applied pressure, real
The now detection to glass substrate edge intensity.
As it is shown in figure 1, in the middle of being embodied as, wherein the first end of the first briquetting 3 is slidably connected with upper bolster 1;Second
First end of briquetting 4 is slidably connected with die shoe 2.
Concrete, in order to the intensity detection mould enabling this utility model to provide is applicable to various sizes of glass substrate
Intensity detection, is arranged to be slidably connected by the first briquetting and upper bolster, is arranged to be slidably connected by the second briquetting and die shoe, this
When sample carries out intensity detection to different size glass substrate, or when glass substrate edge diverse location is carried out intensity detection,
Only need to adjust the first briquetting and second briquetting position on upper bolster and die shoe.
As it is shown in figure 1, in the middle of being embodied as, wherein the side of upper bolster 1 is provided with scale 11, the side of die shoe 2
It is provided with scale 21.
Concrete, upper bolster and die shoe all arrange scale, when regulating first briquetting position on upper bolster
Can be more accurate, especially when arranging multiple first briquetting on upper bolster, can regulate each according to the scale on upper bolster
Distance between first briquetting, can also regulate according to the scale on die shoe when the second briquetting regulated on die shoe simultaneously
Distance between each second briquetting, so when detecting glass substrate edge intensity, experimental can need regulation every
Distance between individual first briquetting, and regulate the distance between each second briquetting, then glass substrate is detected,
To relatively accurate detection data.
As it is shown in figure 1, in the middle of being embodied as, wherein the first briquetting 3 also includes that the first pressure head 31, the first pressure head 31 connect
The second end at the first briquetting 3;Second briquetting 4 also includes that the second pressure head 41, the second pressure head 41 are connected to the second of the second briquetting 4
End.
Concrete, the second end of the first briquetting connects the first pressure head, owing to the first pressure head is to need to apply to glass substrate
The parts of pressure, it is possible to be arranged to variously-shaped by the first pressure head, such as, can be arranged to roll shaft pattern by the first pressure head,
Square block or spherical shape can also be arranged to;Simultaneously the second end at the second briquetting connects the second pressure head, the second pressure head with
The shape of the first pressure head can be arranged to identical shape can also be arranged to different shapes, and the shape of the such as second pressure head is also
Can be arranged to roll shaft pattern, or square block or spherical shape.Can be to different-thickness by the different pressure head of use, no
Intensity detection is carried out with the glass substrate of material.
As it is shown in figure 1, in the middle of being embodied as, wherein the second end of the first pressure head 31 and the first briquetting 3 is by bolt even
Connect, or the second end of the first pressure head 31 and the first briquetting 3 glueds joint;Second end of the second pressure head 41 and the second briquetting 4 passes through spiral shell
Tether and connect, or the second end of the second pressure head 41 and the second briquetting 4 glueds joint.
Concrete, the first pressure head can arrange all-in-one-piece with the first briquetting, it is also possible to is arranged to split, wherein split
Form be optimal scheme, can by bolt or viscose, the second end of the first pressure head with the first briquetting be connected, when need
Can disassemble when changing the first different pressure heads and be replaced;Same second pressure head can be arranged to one with the second briquetting
Body, it is also possible to be arranged to split, wherein separate form is optimal scheme, can pass through bolt or viscose by the second pressure head
Be connected with the second end of the second briquetting, can disassemble when needing to change the second different pressure heads and be replaced, such as when
After a kind of glass substrate of detection, the mould of entirety can be changed, only change the first pressure head and the second pressure head, the most permissible
Another kind of glass substrate is carried out intensity detection.
As it is shown in figure 1, in the middle of being embodied as, wherein device preventing tilting 5 includes two vertical holders 51, and two vertically
Holder 51 is separately positioned on any two the second briquetting 4;Each vertical holder 51 includes again two vertical fixed blocks
511, it is provided with the gap of predefined size between two vertical fixed blocks 511, gap is for vertically placing described glass substrate.
Concrete, the intensity detection mould of this utility model offer, its device preventing tilting is made up of two vertical holders,
Two vertical holders are fixed on two the second briquettings, it is possible to slide on die shoe with the second briquetting, it is possible to keep working as glass
When glass substrate is in the intensity detection mould that this utility model provides, glass substrate is vertical state, and wherein vertically holder can
To be to be made up of two vertical fixed blocks, having the gap of predefined size between two vertical fixed blocks, this gap can basis
The thickness of glass substrate is configured, and during detection glass substrate intensity, is placed on by glass substrate in above-mentioned gap, it is ensured that glass
Vertical state during the detection of glass substrate, makes glass substrate to tilt, makes glass substrate edge intensity detection more accurate.
As it is shown in figure 1, in the middle of being embodied as, the most each vertical fixed block 511 includes the first vertical fixed block 5112
With the second vertical fixed block 5111;Wherein, the first vertical fixed block 5112 is connected with the second briquetting 4, the first vertical fixed block
5112 are slidably connected with the second vertical fixed block 5111.
Concrete, vertical fixed block can be made up of the first vertical fixed block and the second vertical fixed block, and first is vertically solid
Determine block to slide by vertical fixed block relative to second, by the overall lengthening of vertical fixed block, so that device preventing tilting lengthens,
Disclosure satisfy that the vertical placement of larger-size glass substrate, it is also possible to regulate first according to different glass substrate sizes vertical
Fixed block is the position of vertical fixed block relative to second.
As it is shown in figure 1, in the middle of being embodied as, wherein the first briquetting 3 quantity is two, and the quantity of the second briquetting 4 is two
Individual.
Concrete, to glass substrate edge intensity detection, four points choosing glass substrate are optimal as pressure spot
Experimental program, so the quantity of the first optimal briquetting is two, the quantity of the second briquetting is also two, so to glass
When substrate strength detects, the first briquetting and the second briquetting can 4 applying pressures at two edges upper and lower to glass plywood
Power, and then obtain the intensity of glass substrate.
As it is shown in figure 1, in the middle of being embodied as, be wherein provided with the first T-shaped chute 12 on upper bolster 1, the first briquetting 3
First end is provided with the first T-shaped slide block (not shown) being slidingly fitted with the first T-shaped chute 12;Arrange on die shoe 2
Having the second T-shaped chute 22, the first end of the second briquetting 4 is provided with the second T-shaped slide block being slidingly fitted with the second T-shaped chute 22
(not shown).
Concrete, in order to make the slip stable on upper bolster of the first briquetting, make the first briquetting and upper bolster by T-shaped cunning
Block is slidably connected with the mode of T-shaped chute, the most both ensure that the first briquetting is slidably connected with upper bolster, in turn ensure that the first pressure
Block will not drop from upper bolster, equally in order to make the slip stable on die shoe of the second briquetting, the second briquetting and die shoe
The mode being also adopted by T-shaped slide block and T-shaped chute is slidably connected.
As it is shown in figure 1, in the middle of being embodied as, wherein the first briquetting fastens with upper bolster 1 by holding out against screw;Second pressure
Block fastens with die shoe 2 by holding out against screw.
Concrete, the first briquetting is offered tapped through hole, tapped through hole runs through the first T-shaped cunning of first briquetting the first end
Block, so can be screwed into a screw in screwed hole, and when the end of screw is through the first T-shaped slide block, screw end can
Withstand on the bottom of the first T-slot, and then the first briquetting is fastened on upper bolster, when needs slide the first briquetting, only need pine
Lower screw, and the optional position that this kind of mode can make the first briquetting be fastened on the T-shaped chute of upper bolster first;In like manner
Two briquettings are also adopted by this mode and fix.
The above, be only preferred embodiment of the present utility model, not this utility model is made any in form
Restriction, any simple modification, equivalent variations and modification above example made according to technical spirit of the present utility model,
All still fall within the range of technical solutions of the utility model.
Claims (10)
1. an intensity detection mould, it is characterised in that comprising:
Upper bolster;
Die shoe;
At least one first briquetting, the first end of described first briquetting is connected with described upper bolster;
At least two the second briquetting, the first end of described second briquetting is connected with described die shoe;
Device preventing tilting, described device preventing tilting is arranged on described second briquetting, for vertically being placed by glass substrate.
Intensity detection mould the most according to claim 1, it is characterised in that
First end of described first briquetting is slidably connected with described upper bolster;
First end of described second briquetting is slidably connected with described die shoe.
Intensity detection mould the most according to claim 1, it is characterised in that
The side of described upper bolster is provided with scale, and the side of described die shoe is provided with scale.
Intensity detection mould the most according to claim 1, it is characterised in that
Described first briquetting also includes that the first pressure head, described first pressure head are connected to the second end of described first briquetting;
Described second briquetting also includes that the second pressure head, described second pressure head are connected to the second end of described second briquetting.
Intensity detection mould the most according to claim 4, it is characterised in that
Described first pressure head is bolted with the second end of described first briquetting, or described first pressure head and described first
Second end of briquetting glueds joint;
Described second pressure head is bolted with the second end of described second briquetting, or described second pressure head and described second
Second end of briquetting glueds joint.
Intensity detection mould the most according to claim 1, it is characterised in that
Described device preventing tilting includes that two vertical holders, the vertical holder of said two are separately positioned on described in any two
On second briquetting.
Intensity detection mould the most according to claim 6, it is characterised in that
Described vertical holder includes two vertical fixed blocks, is provided with the seam of predefined size between the vertical fixed block of said two
Gap, described gap is for vertically placing described glass substrate.
Intensity detection mould the most according to claim 7, it is characterised in that
Described each vertical fixed block includes again the first vertical fixed block and the second vertical fixed block;
Wherein, one end of the described first vertical fixed block is connected with described second briquetting, another of the described first vertical fixed block
End is slidably connected with the described second vertical fixed block.
Intensity detection mould the most according to claim 2, it is characterised in that
Being provided with the first T-shaped chute on described upper bolster, the first end of described first briquetting is provided with and described first T-shaped chute
The the first T-shaped slide block being slidingly fitted;
Being provided with the second T-shaped chute on described die shoe, the first end of described second briquetting is provided with and described second T-shaped chute
The the second T-shaped slide block being slidingly fitted.
Intensity detection mould the most according to claim 9, it is characterised in that
Described first briquetting fastens with described upper bolster by holding out against screw;
Described second briquetting fastens with described die shoe by holding out against screw.
Priority Applications (1)
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CN201620761555.2U CN205826422U (en) | 2016-07-19 | 2016-07-19 | Intensity detection mould |
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CN201620761555.2U CN205826422U (en) | 2016-07-19 | 2016-07-19 | Intensity detection mould |
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CN205826422U true CN205826422U (en) | 2016-12-21 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107132129A (en) * | 2017-04-26 | 2017-09-05 | 南京航空航天大学 | A kind of adjustable many suitable type three point bending test devices |
-
2016
- 2016-07-19 CN CN201620761555.2U patent/CN205826422U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107132129A (en) * | 2017-04-26 | 2017-09-05 | 南京航空航天大学 | A kind of adjustable many suitable type three point bending test devices |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: Intensity detecting die Effective date of registration: 20200713 Granted publication date: 20161221 Pledgee: Beijing State Owned Financial Leasing Co., Ltd Pledgor: WUHU TUNGHSU PHOTOELECTRIC SCIENCE AND TECHNOLOGY Co.,Ltd. Registration number: Y2020990000738 |
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PE01 | Entry into force of the registration of the contract for pledge of patent right |