CN110435020A - A kind of glass processing system and method - Google Patents

Abstract

The invention discloses a kind of glass processing system and methods, the processing method is the following steps are included: be cut into glass block for glass billot, the glass block includes one group of first wall surface and one group of second parallel wall surface, first wall surface and the second wall surface vertical connection in parallel；Cutting is carried out to the glass block and forms two opposite skew wall faces, there is the first angle between the skew wall face and corresponding first wall surface, there is the second angle between the skew wall face and corresponding second wall surface；Two skew wall faces and corresponding first wall surface are processed, are allowed to form cambered surface.Using technical solutions according to the invention, the former material utilization rate of glass can effectively improve, improve the efficiency of glass processing, reduce production cost.

Description

A kind of glass processing system and method

Technical field

The present invention relates to water meter production equipment technology, a kind of particularly glass processing system and method.

Background technique

The digital and related operating parameters on water meter can be observed clear and intuitively for the ease of terminal user, and water meter executes Device assembly usually requires to install a piece of D type glass 8 (as shown in Figure 1) in its device-readable window, this D type glass 8, which need to meet, to be set Dimensional accuracy after the thickness (usually 15mm or so) of meter, tempering intensity, straight flange and the grinding of arch side, and need to can guarantee glass Watertightness performance, detachable maintainability, bluetooth or the readable performance of infrared data after glass installation.

The processing scheme of traditional D type glass 8 is that circular sheet glass is extracted in glass raw material using set circular knitting machine, Four straight flange sawings, the part D type glass 8 so that circular sheet glass is divided into two are carried out to circular sheet glass again.Using above-mentioned Scheme, can have that processing takes a long time, product flash is serious, fraction defective is high, low (waste material ratio is about utilization rate of raw materials 40%) saw blade for, covering circular knitting machine is easily deformed so that the problems such as cost repaired and replaced is very high.Therefore, how efficiently, it is high Produce D type glass 8 in enormous quantities to quality, low scrap rate, is those skilled in the art's technical problem urgently to be resolved.

Summary of the invention

In order to overcome the defects of the prior art, the embodiment of the invention provides a kind of glass processing system and method, At least one for solving the above problems.

The embodiment of the present application discloses: a kind of glass processing system, for processing to glass billot, to form D Type glass, the D type glass include one and face directly and face corresponding cambered surface directly with described, and the glass processing system includes:

Pre-forming device, the pre-forming device include:

Blanking punch group, for being cut to glass；

Sliding module, for driving glass to be slided, so that the blanking punch group cuts glass row；

Positioning module is arranged in the sliding module, for positioning to the glass billot, so that described Glass billot is cut into glass block by the blanking punch group, and the glass block includes one group of first parallel wall surface and one group The second parallel wall surface, first wall surface and the second wall surface vertical connection；

Shaping mould group is arranged in the sliding module and is used to that the glass block to be fixed, so that institute It states frit block and is cut to two opposite skew wall faces, there is the first folder between the skew wall face and corresponding first wall surface Angle has the second angle between the skew wall face and corresponding second wall surface；

Final shaping unit equipment, the final shaping unit equipment is for adding two skew wall faces and corresponding first wall surface Work, to form cambered surface.

Specifically, the sliding module includes plummer and multiple guide rods, the plummer and the guide rod cooperate, thus The plummer is slided along the guide rod.

Specifically, the bottom of the plummer is equipped with idler wheel and/or guide groove for cooperating with the guide rod.

Specifically, the positioning module includes the first positioning plate and the second positioning plate being arranged on the plummer, institute The first positioning plate is stated for positioning along its length to the glass billot, second positioning plate is in the width direction The glass billot is positioned.

Specifically, being additionally provided with positioning pin on first positioning plate.

Specifically, the positioning module further includes third positioning plate, the side of the third positioning plate is connected to described On one positioning plate, the positioning pin is protruded to position to the glass block in the other side of the third positioning plate.

Specifically, the positioning module further includes the 4th positioning plate, the side of the 4th positioning plate is connected to described On one positioning plate, the other side of the 4th positioning plate is for positioning the glass billot.

Specifically, the plummer is equipped with cutting area, the 4th positioning plate and the shaping mould group are disposed alternately at In the cutting area, so that the 4th positioning plate and first positioning plate cooperate to determine the glass billot Position, or the shaping mould group is cooperated with first positioning plate to position to the glass block.

Specifically, the shaping mould group leans on face by face and second including first, described first by face and the glass block The first wall surface abut, described second abuts with the second wall surface of the glass block by face.

Specifically, first angle is 150 °, second angle is 120 °.

The present embodiment also discloses a kind of glass processing method, is used to form D type glass, and the D type glass includes one Face directly and face corresponding cambered surface directly with described, the glass processing method the following steps are included:

Glass billot is cut into glass block, the glass block includes that one group of first parallel wall surface and one group are parallel The second wall surface, first wall surface and the second wall surface vertical connection；

Cutting is carried out to the glass block and forms two opposite skew wall faces, the skew wall face and corresponding first wall surface Between have the first angle, between the skew wall face and corresponding second wall surface have the second angle；

Two skew wall faces and corresponding first wall surface are processed, are allowed to form cambered surface.

Beneficial effects of the present invention are as follows:

1. glass bar to be cut into the glass block of the comparable dimensions of shape and size and D type glass (finished product), then right Glass block carries out necessary trimming (forming skew wall), so that the stock utilization of glass former material is high, scrap rate sharp fall.

2. blanking punch group can be cut using straight knife, compared with the circular ring shape saw blade of set circular knitting machine, repairs and replace Cost is relatively low.

3. preforming operation can be processed in the same station using the same equipment, maximizing reduces operator The carrying processing procedure of member rationally utilizes space, improves production efficiency, reduces production cost.

For above and other objects, features and advantages of the invention can be clearer and more comprehensible, preferred embodiment is cited below particularly, And cooperate institute's accompanying drawings, it is described in detail below.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the flow process chart of glass processing system described in the embodiment of the present invention；

Fig. 2 is the structural schematic diagram that pre-forming device described in the embodiment of the present invention is used to form the glass block；

Fig. 3 is the partial enlarged view in Fig. 2 at A；

Fig. 4 is that the structure that pre-forming device described in the embodiment of the present invention is used to finish the glass block is shown It is intended to；

Fig. 5 is the partial enlarged view in Fig. 4 at B；

Fig. 6 is that pre-forming device described in the embodiment of the present invention is used to carry out the glass block cutting to form skew wall face Structural schematic diagram；

Fig. 7 is the partial enlarged view in Fig. 6 at C.

The appended drawing reference of the figures above: 1- blanking punch group, 2- sliding module, 21- plummer, 211- cutting area, 22- are led Bar, 23- guide groove, 24- idler wheel, 3- positioning module, the first positioning plate of 31-, the second positioning plate of 32-, 33- positioning pin, 34- third are fixed Position plate, the 4th positioning plate of 35-, 4- shaping mould group, 41- first lean on face, and 42- second leans on face, 5- bracket, 6- baffle, 7- glass bar Material, 71- glass block, the first wall surface of 711-, the second wall surface of 712-, 713- skew wall face, 8-D type glass, 81- are faced directly, 82- arc Face, α-the first angle, β-the second angle.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In conjunction with shown in Fig. 1, Fig. 2, Fig. 6, glass processing system described in the present embodiment is for adding glass billot 7 Work, to form D type glass 8, the D type glass 8 includes one and faces 81 directly and face 81 corresponding cambered surfaces 82 directly with described.It is described Glass processing system includes pre-forming device and final shaping unit equipment (not shown), and the pre-forming device is used for glass bar Material 7 is cut into the glass blocks similar with the shape and size of the D type glass 8, what the final shaping unit equipment was used to follow an example this Glass blocks is processed into the D type glass 8 with cambered surface 82.Wherein, the pre-forming device includes:

Blanking punch group 1, the blanking punch group 1 is for cutting glass；

Sliding module 2, the sliding module 2 is for driving glass to be slided, so that the blanking punch group 1 is to glass Glass is cut；

Positioning module 3, the positioning module 3 are arranged in the sliding module 2, for carrying out to the glass billot 7 Positioning, so that the glass billot 7 is cut into glass block 71 by the blanking punch group 1, the glass block 71 includes One group of first parallel wall surface 711, second wall surface 712 parallel with one group, first wall surface 711 and second wall surface 712 Vertical connection；

Shaping mould group 4, the shaping mould group 4 are arranged in the sliding module 2, and the shaping mould group 4 is used for described Glass block 71 is fixed, so that the glass block 71 is cut to two opposite skew wall faces 713, this implementation institute The relatively included situation of meaning has: two skew wall faces 713 jointly with first wall surface 711 or 712 phase of the second wall surface It hands over.There is the first angle α, the skew wall face 713 and corresponding the between the skew wall face 713 and corresponding first wall surface 711 There is the second angle β between two wall surfaces 712；In other words, two skew wall faces 713 respectively with the first wall surface for being cut There is the first angle α between 711, and two skew wall faces 713 have the between the second intersecting therewith wall surface 712 respectively Two angle β；

The final shaping unit equipment is used to process two skew wall faces 713 and corresponding first wall surface 711, thus Form cambered surface 82.

Specifically, in the present embodiment, the position of the blanking punch group 1 relatively fixed can not change, the positioning Mould group 3 can be set in the end of the sliding module 2, and the shaping mould group 4 can be arranged by the way of being detachably connected In the sliding module 2.

When the glass processing system is used to form D type glass 8, firstly, shaping mould group 4 is removed from sliding module 2, Glass billot 7 is placed in the sliding module 2 and the end of glass billot 7 is resisted against on the positioning module 3 to carry out Positioning；Then, sliding the sliding module 2 moves it towards the direction of the blanking punch group 1, so that blanking punch group 1 Glass billot 7 is cut into the glass block 71 being not much different with the length and width dimensions of D type glass 8；Then, by 2 court of sliding module Direction far from blanking punch group 1 is slided, and the shaping mould group 4 is then installed in the sliding module 2, then by the glass Block 71 is resisted against in the shaping mould group 4 and fixes；Then, the sliding module 2 is slided, makes it towards the blanking punch group 1 direction movement, so that blanking punch group 1 cuts one end of any one the first wall surface 711 of the glass block 71 Then a skew wall face 713 out repeats the primary step, so that the other end of first wall surface 711 is also cut out one tiltedly Wall surface 713；Finally, there are two the sides in skew wall face 713 to process for the tool using final shaping unit equipment to glass block 71, thus Form cambered surface 82.

By above structure, compared with prior art, advantage is as follows for glass processing system described in the present embodiment:

1. glass billot 7 to be cut into the glass block of the comparable dimensions of shape and size and D type glass 8 (finished product) 71, then necessary trimming (forming skew wall face 713) is carried out to glass block 71 and is given up so that the stock utilization of glass former material is high Material rate sharp fall.

2. blanking punch group 1 can be cut using straight knife, compared with the circular ring shape saw blade of set circular knitting machine, repairs and replace Cost is relatively low.

3. preforming operation can be processed in the same station using the same equipment, maximizing reduces operator The carrying processing procedure of member rationally utilizes space, improves production efficiency, reduces production cost.

Specifically, emphasis, referring to shown in Fig. 2 and Fig. 3, the sliding module 2 includes plummer 21 and multiple guide rods 22, institute It states plummer 21 and the guide rod 22 cooperates, so that the plummer 21 can be slided along the guide rod 22.More specifically, The plummer 21 is used for bearing glass billot 7 or glass block 71, the plummer 21 in the one side of glass contact (usually For the top of plummer 21) it is equipped with anti-scratch protection materials (such as rubber), to prevent glass from being scratched.The plummer 21.The bottom of the plummer 21 is equipped with multiple idler wheels 24 and/or guide groove 23 for cooperating with the guide rod 22, wherein institute State the preferred V-type idler wheel of idler wheel 24.In the present embodiment, the plummer 21 is set close to the bottom of one end of the blanking punch group 1 There is an idler wheel 24, and the bottom of the one end of plummer 21 far from the blanking punch group 1 is equipped with guide groove 23, using this combination, Since idler wheel 24 and the contact area of guide rod 22 are smaller, it can reduce its sliding friction between guide rod 22, advantageously reduce The resistance to sliding of sliding module 2, and the contact area of guide groove 23 and guide rod 22 is more larger, it can be ensured that it cooperates with guide rod 22 Stability, the swing be conducive to when sliding module 2 is slided are smaller, it is ensured that the cutting accuracy of glass.

Specifically, with continued reference to shown in Fig. 2 and Fig. 3, the positioning module 3 includes the be arranged on the plummer 21 One positioning plate 31 and the second positioning plate 32, first positioning plate 31 is for along its length determining the glass billot 7 Position, second positioning plate 32 is in the width direction positioning the glass billot 7.In other words, described first is fixed Position plate 31 is extended along the width direction of the plummer 21, and second positioning plate 32 is along the length of the plummer 21 Direction is extended, and a right angle can be formed between first positioning plate 31 and second positioning plate 32, so that When the glass billot 7 is placed on plummer 21, the broadside of glass billot 7 and first positioning plate 31 against, and Long side and the second positioning plate 32 against.Further, the positioning module 3 can also include one and first positioning plate 31 4th positioning plate 35 of cooperation, the side of the 4th positioning plate 35 are resisted against on first positioning plate 31, and the other side is used for With glass billot 7 carry out against.Further, in conjunction with shown in Fig. 5 and Fig. 7, the plummer 21 is equipped with cutting area 211, 4th positioning plate 35 and the shaping mould group 4 are alternatively disposed in the cutting area 211, so that the described 4th Positioning plate 35 cooperates with first positioning plate 31 to position to the glass billot 7, realizes the cutting of glass billot 7； Or the shaping mould group 4 is cooperated with first positioning plate 31 to position to the glass block 71, realize glass The molding of block 71.It is equipped with cutter groove together between the cutting area 211 and non-cutting, glass is carried out convenient for blanking punch group 1 Cutting.

Using the above scheme, when the system of processing cuts the glass billot 7, using the 4th positioning The mode that plate 35 cooperates with the first positioning plate 31 positions glass billot 7, and when the system of processing is to glass block 71 When being cut, the shaping mould group 4 is used to cooperate to position to glass block 71, such as with first positioning plate 31 This can make glass bar material 7 and glass block 71 by switching between the 4th positioning plate 35 and shaping mould group 4 Cutting path is identical, so that the position of blanking punch group 1 immobilizes, the shift in position for avoiding blanking punch group 1 is frequent, shadow Cutting accuracy is rung, production efficiency is also influenced.

Further, as shown in Figure 4 and Figure 5, positioning pin 33, the positioning pin 33 are additionally provided on first positioning plate 31 One end be fixed on first positioning plate 31, the other end can be used for and the 4th positioning plate 35 or the shaping mould group 4 are abutted.Further, the positioning module 3 further includes third positioning plate 34, and the side of the third positioning plate 34 is supported It connects on first positioning plate 31, the positioning pin 33 is protruded to the glass blocks in the other side of the third positioning plate 34 Material 71 is positioned.It should be noted that the third positioning plate 34 and the 4th positioning plate 35 and non-concurrent use, but First cooperated with positioning pin 33 so that glass billot 7 is cut into glass block 71, then uses third using the 4th positioning plate 35 Positioning plate 34 and the first positioning plate 31 cooperate, to finish to glass block 71, so that the length dimension of glass block 71 With D type glass 8 face directly 81 length dimension it is identical.

Using the above scheme, the system of processing first can carry out quick rough cutting to glass billot 7, obtain glass blocks Material 71, then a fine cut is carried out to glass block 71 and obtains more smaller glass block 71, so that fine cut The length dimension of glass block 71 afterwards and D type glass 8 face directly 81 length dimension it is identical, in this way, glass blocks can be made The cutting part of material 71 is neatly without flash.

Specifically, the shaping mould group 4 leans on face 42 by face 41 and second including first, described shown in referring to figure 6 and figure 7 First by face 41 for being abutted with the first wall surface 711 of the glass block 71, described second by face 42 for and the glass Second wall surface 712 of block 71 abuts.In the present embodiment, the shaping mould group 4 can cooperate with the positioning module 3, altogether It is positioned with to the glass block 71, so that the cutting path phase of the glass block 71 and the glass billot 7 Together.More specifically, it described first is vertically arranged by face 41 and described second by face 42.In the present embodiment, the blanking punch The preferred straight line of cutting path of group 1, cut direction can be perpendicular to the glide directions of sliding module 2, therefore, and described first leans on face 41 Angle and first angle α between the cutting path of the blanking punch group 1 are supplementary angles, and described second leans on face 42 and institute The angle and the second angle β stated between the cutting path of blanking punch group 1 are supplementary angles.In the present embodiment, described first Angle α is 150 °, and the second angle β is 120 °.

Using the above scheme, it is advantageously ensured that glass billot 7 is identical with the cutting path of glass block 71, so that blanking punch Group 1 is in changeless position.

Specifically, as shown in Fig. 2, due to glass-cutting usually require band water operate, i.e., wash by water while cutting, because This, pre-forming device described in the present embodiment further includes bracket 5, and the bracket 5 is conducive to for installing the pre-forming device The clean and tidy of work top is kept, the bracket 5 can be made of the SU304 stainless steel square pipe of 50 × 50mm, it is ensured that station Steadily and it is not easy to get rusty.Further, in order to avoid the water stain splashing on station, gear is also provided on the bracket 5 Some waterproof cover (not shown)s etc. also can be set in plate 6.

Glass processing method described in the present embodiment, is used to form D type glass 8, and the D type glass 8 includes one and faces directly 81 and 81 corresponding cambered surfaces 82 are faced directly with described, the described method comprises the following steps:

Firstly, the blanking punch group 1, sliding module 2 and positioning module 3 cooperate jointly through this embodiment, by glass Billot 7 is cut into glass block 71, and specifically, the glass block 71 includes one group of first parallel wall surface 711 and one group The second parallel wall surface 712, first wall surface 711 and 712 vertical connection of the second wall surface, that is to say, that the glass Block 71 is generally in cuboid or cube structure.The length dimension of the glass block 71 can be equal to or slightly greater than institute The length for facing 81 directly of D type glass 8 is stated, the width of the glass block 71 can be equal to or slightly greater than the D type glass 8 Cambered surface 82 faces 81 maximum distance directly to it.

Then, described blanking punch group 1, sliding module 2, positioning module 3 and shaping mould group 4 are common through this embodiment Cooperation, the glass block 71 is cut, thus formed two opposite skew wall faces 713, the skew wall face 713 with it is corresponding The first wall surface 711 between have the first angle α, between the skew wall face 713 and corresponding second wall surface 712 have second folder Angle beta.In other words, two skew wall faces 713 respectively with there is the first angle α between the first wall surface 711 for being cut, and two A skew wall face 713 has the second angle β between the second intersecting therewith wall surface 712 respectively.In the present embodiment, described First angle α is 150 °, and the second angle β is 120 °.

Then, two skew wall faces 713 and corresponding first wall surface 711 are processed using final shaping unit equipment, It is allowed to form cambered surface 82.

Specific embodiment is applied in the present invention, and principle and implementation of the present invention are described, above embodiments Explanation be merely used to help understand method and its core concept of the invention；At the same time, for those skilled in the art, According to the thought of the present invention, there will be changes in the specific implementation manner and application range, in conclusion in this specification Appearance should not be construed as limiting the invention.

Claims (10)

1. a kind of glass processing system, for processing to glass billot, to form D type glass, the D type glass includes One is faced directly and faces corresponding cambered surface directly with described, which is characterized in that the glass processing system includes:

Pre-forming device, the pre-forming device include:

Blanking punch group, for being cut to glass；

Sliding module, for driving glass to be slided, so that the blanking punch group cuts glass row；

Positioning module is arranged in the sliding module, for positioning to the glass billot, so that the glass Billot is cut into glass block by the blanking punch group, and the glass block includes that one group of first parallel wall surface and one group are parallel The second wall surface, first wall surface and the second wall surface vertical connection；

Shaping mould group is arranged in the sliding module and is used to that the glass block to be fixed, so that the glass Glass material block is cut to two opposite skew wall faces, has the first angle, institute between the skew wall face and corresponding first wall surface Stating has the second angle between skew wall face and corresponding second wall surface；Final shaping unit equipment, the final shaping unit equipment are used for two The skew wall face and corresponding first wall surface are processed, to form cambered surface.

2. glass processing system according to claim 1, which is characterized in that the sliding module includes plummer and multiple Guide rod, the plummer and the guide rod cooperate, so that the plummer can be slided along the guide rod.

3. glass processing system according to claim 2, which is characterized in that the bottom of the plummer be equipped with for institute State the idler wheel and/or guide groove of guide rod cooperation.

4. glass processing system according to claim 2, which is characterized in that the positioning module includes that setting is held described The first positioning plate and the second positioning plate on microscope carrier, first positioning plate is for along its length carrying out the glass billot Positioning, second positioning plate is in the width direction positioning the glass billot.

5. glass processing system according to claim 4, which is characterized in that be additionally provided with positioning on first positioning plate Pin.

6. glass processing system according to claim 5, which is characterized in that the positioning module further includes third positioning Plate, the side of the third positioning plate are connected on first positioning plate, described in the other side protrusion of the third positioning plate Positioning pin is to position the glass block.

7. glass processing system according to claim 4, which is characterized in that the positioning module further includes the 4th positioning The side of plate, the 4th positioning plate is connected on first positioning plate, and the other side of the 4th positioning plate is used for institute Glass billot is stated to be positioned.

8. glass processing system according to claim 7, which is characterized in that the plummer is equipped with cutting area, described 4th positioning plate and the shaping mould group are disposed alternately in the cutting area, so that the 4th positioning plate and described the One positioning plate cooperates to position to the glass billot, or the shaping mould group and first positioning plate are cooperated with The glass block is positioned.

9. glass processing system according to claim 1, which is characterized in that the shaping mould group includes first by face and the Two lean on face, and described first abuts by face with the first wall surface of the glass block, and described second by face and the glass block Second wall surface abuts.

10. a kind of glass processing method, it is used to form D type glass, the D type glass includes one and faces directly and face directly pair with described The cambered surface answered, which is characterized in that the glass processing method the following steps are included:

Glass billot is cut into glass block, the glass block includes one group of first parallel wall surface and one group parallel the Two wall surfaces, first wall surface and the second wall surface vertical connection；

Cutting is carried out to the glass block and forms two opposite skew wall faces, between the skew wall face and corresponding first wall surface With the first angle, there is the second angle between the skew wall face and corresponding second wall surface；

Two skew wall faces and corresponding first wall surface are processed, are allowed to form cambered surface.