CN113480160B - Screen glass production and cutting method based on integral fixed working platform - Google Patents

Abstract

The invention discloses a screen glass production cutting method based on an integral fixed working platform, which is characterized in that a plate-shaped screen glass substrate to be cut is fixed in a horizontal state in a mode of adsorption at the lower side surface and then is cut by a cutting device from the upper side. The invention can better realize the fixation of the screen glass, and has the advantages of better stability and reliability, and improved cutting precision and product quality.

Description

Screen glass production and cutting method based on integral fixed working platform

Technical Field

The invention relates to the technical field of screen glass production equipment, in particular to a screen glass production and cutting method based on an integral fixed working platform.

Background

The screen glass is a glass material mainly used as a display screen on a mobile phone, a computer and a television. The size and dimensions of the screen glass vary according to the application. In the production process of the screen glass, the screen glass needs to be cut.

In the screen glass cutting process, the screen glass needs to be fixed first. In the prior art, the mode of crimping or clamping the side edges of two sides of glass to be cut on a workbench is usually adopted for fixing. For example, CN202022505760.1 discloses a mobile phone screen glass cutting device with a polishing function, in this patent, a clamping and fixing manner is adopted to position glass to be cut, and a positioning seat for clamping can be moved and adjusted, so that the mobile phone screen glass cutting device is convenient to use. However, in the fixing mode of the structure, the stress of the glass is unbalanced during cutting, so that the glass can be bent and deformed, the cutting quality is further influenced, and the increasingly refined quality requirements of screen glass products cannot be met.

CN210029226U discloses a suction rake for moving a screen glass. Its structure includes horizontal aluminium alloy, vertical aluminium alloy, a suction nozzle, no. two suction nozzles and No. three suction nozzles, can dismantle through four connecting blocks between two horizontal aluminium alloys and be connected with two vertical aluminium alloys, the suction nozzle of equal three fixedly connected with on the opposite flank of two horizontal aluminium alloys, suction nozzle No. two of equal fixedly connected with on the opposite flank of horizontal aluminium alloy. The utility model discloses a through setting up two horizontal aluminium alloy and two vertical aluminium alloy, all set up the suction nozzle on two aluminium alloys, set up vacuum switch on the vertical aluminium alloy, utilize vacuum switch to start every suction nozzle, guarantee to adsorb and collect screen glass, set up simultaneously on the horizontal aluminium alloy can gliding expansion plate to can make things convenient for not unidimensional glass size, whole novel suction rake has effectually solved the problem that mobile glass removed in cutting process, it is more simple and convenient to operate.

Although the glass screen is fixed and adjusted more conveniently by adopting an adsorption mode, the glass screen still adopts a peripheral fixing mode. When the glass screen is cut, the problem that the cutting quality and the product precision are affected due to unbalanced stress still exists.

Therefore, how to provide a scheme capable of better realizing the fixation of the screen glass, enhancing the stability and reliability of the fixation, and improving the cutting precision and the product quality becomes a problem to be considered and solved by the person in the field.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: the screen glass production and cutting method based on the integral fixed working platform can better realize the fixation of the screen glass, has better stability and reliability, and improves the cutting precision and the product quality.

The technical scheme adopted by the invention is as follows:

a screen glass production cutting method based on an integral fixed working platform fixes a plate-shaped screen glass substrate to be cut in a horizontal state in a mode of adsorption on the lower side surface, and then cuts the screen glass substrate from the upper side by adopting a cutting device.

Like this, adopt the whole downside plane of a level setting to treat the cutting screen glass substrate to realize supporting, then adopt even array arrangement and the same adsorption affinity of size to provide even adsorption affinity and realize fixing, improved the fixed reliability and the stability of screen glass. Therefore, the stress balance of the screen glass during cutting is ensured, the cutting precision is improved, and the product precision is improved.

Furtherly, adopt the fixed work platform of integral screen glass cutting to realize treating cutting screen glass's fixed during the cutting, the fixed work platform of integral screen glass cutting, including a platform body that is integral horizontal flat structure, platform body upper surface is the supporting surface, and a plurality of vertical decurrent absorption mouths have been seted up to platform body upper surface, and the absorption mouth is even array arrangement, and platform body inside has along many vacuum tube way that the horizontal direction set up, and each absorption mouth all communicates on the vacuum tube way that corresponds.

In the above scheme, the adsorption ports are arranged in an even array, which means that the adsorption ports in only part of the regions on the support plane are arranged in an even array, so that the glass screen can be uniformly adsorbed and fixed in a specified size without uniformly arranging all the adsorption ports according to the equal distance. Therefore, the number of the adsorption ports on the working platform is large, so that in a conventional design method, two or more plates are overlapped and fixed to form the working platform in order to facilitate the arrangement of the vacuum pipeline, and the vacuum pipeline can be conveniently formed by penetrating and slotting between the plates. However, the structural mode of fixedly forming the working platform after the plurality of plates are overlapped has the following defects: 1 is that the fluting region needs each absorption mouth of intercommunication, so the area is great, can form the weak position of platform support intensity, can produce certain sunken deformation under the adsorption affinity of the fixed in-process of screen glass, leads to the screen glass atress uneven, and then influences the cutting quality. 2 be for improving real hole absorption fixed effect, need sealed fixed and sealed requirement higher between the panel, after the device operating time is long, sealed fixed position is used for the easy fatigue failure of fixed screw spare not hard up, and then influences the adsorption effect, influences cutting effect.

In the scheme, the platform body is obtained by a horizontal flat-plate-shaped member, and the adsorption vacuumizing structure is arranged on the same plate member, so that the defects can be avoided, the reliability and stability of adsorption and fixation are improved, the stability and durability of cutting quality are ensured, the warping and deformation of the cut screen glass are prevented, and the service life of the device is greatly prolonged.

Furthermore, the vacuum pipeline is a pipeline which is arranged along the linear direction and has a circular section, and at least one end of the vacuum pipeline is arranged on the side surface of the platform body.

Like this, can conveniently follow the mode processing that adopts drilling on the platform body side and obtain the vacuum line, the section of vacuum line on vertical direction is circular simultaneously, can be better transmit pressure from top to bottom, and the cavity position of furthest avoiding answering the vacuum line leads to the platform upper surface to produce sunken deformation.

Furthermore, a plug is arranged on an opening in the side face of the platform body of the vacuum pipeline, and a vertical vacuumizing interface is arranged below the platform body and communicated with the vacuum pipeline.

Therefore, the opening on the side surface of the vacuum pipeline can be blocked by the plug during vacuumizing, and then the vacuumizing device is used for vacuumizing below the platform body, so that the vacuumizing device is more convenient to install and arrange.

Further, the platform body is provided with mounting holes for mounting and fixing the platform body at least on two opposite side surfaces.

Like this, conveniently realize the fixed of platform body self on the mount pad through the mounting hole.

Further, the mounting hole is a plurality of and be evenly spaced horizontal row form setting.

Like this, can make the platform body itself can be atress more evenly when fixed mounting, avoid the atress inequality to lead to the influence of deformation to the platform body.

Furthermore, a plurality of vacuum pipelines are mutually communicated to form a communicated adsorption area at least corresponding to the area of a product with a specific model, a plurality of communicated adsorption areas are formed on the platform body, and each communicated adsorption area is provided with a pair of vacuumizing interfaces which are positioned below and communicated with the vacuum pipelines.

Like this, on same mounting platform, can adsorb the region through the intercommunication of difference, carry out the absorption that corresponds the size to the screen glass product of different models size and fix and cut, can realize like this that the pertinence to multiple different products is fixed, improved the device practicality.

Further, the communicated adsorption areas are arranged in a semi-surrounding structure from inside to outside on the whole. The overall meaning is that at least most of the connected adsorption areas are arranged in a semi-surrounding structure, but there may be a separate part of the connected adsorption areas in the form of independent areas.

In this way, each communicating adsorption region can be used alone to form a platform adsorption surface of a specific area, and when necessary, the outer communicating adsorption region can be used in combination with the inner communicating adsorption region to form an adsorption surface of a larger area. Therefore, by adopting the structural arrangement mode, more targeted adsorption areas of products with different models and sizes can be realized by adopting less area, and the practicability of the device is greatly improved.

Therefore, the arrangement of the vacuum pipeline is more convenient, and the thickness of the platform body can be reduced better.

Further, the vacuumizing interfaces of all communicated adsorption areas are located in the middle of the lower portion of the platform body and are integrally arranged around the platform body in a similar annular structure.

Like this, it arranges evacuating device in platform body below middle part to be convenient more, and convenient adjustment switches.

Furthermore, the communicated adsorption region comprises a first communicated adsorption region positioned in the middle of one side of the platform body, the first communicated adsorption region comprises a plurality of first length direction vacuum pipelines uniformly arranged along the width direction of the platform body at intervals, the first length direction vacuum pipelines extend to the position near the middle of the platform body along the length direction from one side edge of the length direction of the platform body, the first communicated adsorption region also comprises at least one first width direction vacuum pipeline arranged along the width direction of the platform, the first width direction vacuum pipeline is communicated with the first length direction vacuum pipelines and extends to the side edge along one side of the width direction of the platform body, and the first length direction vacuum pipeline and the first width direction vacuum pipeline are positioned on a first horizontal plane;

the communicated adsorption region further comprises a second communicated adsorption region which is arranged outside the first communicated adsorption region in a semi-surrounding mode, the second communicated adsorption region comprises a plurality of second length direction vacuum pipelines distributed on two sides of the first communicated adsorption region in the width direction of the platform body, the second length direction vacuum pipelines are uniformly arranged in the width direction of the platform body at intervals, the second communicated adsorption region further comprises at least one second width direction vacuum pipeline, the second width direction vacuum pipelines are uniformly arranged in the length direction of the platform body at intervals and are positioned on the outer side, away from the direction of the first width direction vacuum pipeline, the second width direction vacuum pipelines extend to the side edge along one side of the width direction of the platform body, the direction of the second width direction vacuum pipelines extending to the side edge of the platform body is opposite to the direction of the first width direction vacuum pipelines extending to the side edge of the platform body, the second length direction vacuum pipelines and the second width direction vacuum pipelines are both positioned on a second horizontal plane, and the first horizontal plane are arranged in a staggered mode in the height direction;

the third communication adsorption area comprises a plurality of third length direction vacuum pipelines distributed on two sides of the second communication adsorption area in the width direction of the platform body, the third length direction vacuum pipelines are uniformly arranged along the width direction of the platform body at intervals, the third width direction vacuum pipelines are uniformly arranged along the length direction of the platform body at intervals and are positioned on the outer side of the second width direction vacuum pipelines away from the direction of the first communication adsorption area, the third width direction vacuum pipelines extend to the side edge of the platform body along one side of the width direction of the platform body, the direction in which the third width direction vacuum pipelines extend to the side edge of the platform body is the same as the direction in which the second width direction vacuum pipelines extend to the side edge of the platform body, the third length direction vacuum pipelines positioned on the same side as the third width direction vacuum pipelines extend to the side edge of the platform body are positioned on the first horizontal plane, and the third length direction vacuum pipelines and the third width direction vacuum pipelines on the other side are positioned on the upper side of the second horizontal plane through a connecting pipe below the second horizontal plane, and a lower connecting pipe is plugged;

the communicated adsorption area further comprises a fourth communicated adsorption area, the fourth communicated adsorption area comprises fourth length direction vacuum pipelines distributed on two sides of the third communicated adsorption area in the width direction of the platform body, the fourth communicated adsorption area further comprises fourth width direction vacuum pipelines extending along the width direction of the platform body, the fourth length direction vacuum pipelines which are consistent with the side direction of the side edge of the platform body and connected with the first width direction vacuum pipelines are located on the second horizontal plane, the fourth length direction vacuum pipelines and the fourth width direction vacuum pipelines on the other side are located on the first horizontal plane (the fourth length direction vacuum pipelines and the fourth width direction vacuum pipelines are communicated through a vertical downward connecting pipeline, and the lower port of the connecting pipeline can be plugged.

Like this, adopt the vacuum line arrangement space of only two-layer horizontal plane, arranged four and be the intercommunication adsorption zone of half surrounding structure in proper order, and make respective vacuum tube each can not interfere each other ingeniously, so can realize reaching more intercommunication adsorption zone's arrangement with thinner platform size, greatly improved the integrated performance of device, realize the use possibility that equipment is more with less equipment material cost, greatly improved the practicality of device.

The communicated adsorption region further comprises a fifth communicated adsorption region, the fifth communicated adsorption region is positioned at one end of the platform body, which is far away from the direction of the first communicated adsorption region, the fifth communicated adsorption region comprises a plurality of fifth width direction vacuum pipelines arranged along the width direction of the platform body, the fifth width direction vacuum pipelines are uniformly distributed at intervals along the length direction of the platform body, one end of each fifth width direction vacuum pipeline extends to the side edge of the platform body, the other end of each fifth width direction vacuum pipeline is intersected and communicated with a fifth length direction vacuum pipeline arranged along the length direction of the platform body, one end of each fifth length direction vacuum pipeline, which is far away from the first communicated adsorption region, extends to the side surface of the end part of the platform body, the fifth width direction vacuum pipeline and the fifth length direction vacuum pipeline are both positioned on a second horizontal plane, the fifth communicated adsorption region further comprises two fifth vacuumizing connection auxiliary pipelines arranged along the length direction of the platform body, the fifth vacuumizing connection auxiliary pipelines are positioned on the third horizontal plane, one end of each fifth vacuumizing connection auxiliary pipeline extends into the third communicated adsorption region and is provided with a corresponding vacuumizing interface, and the other end of each other is connected to the side edge of the platform body;

the communicated adsorption area further comprises a sixth communicated adsorption area, the sixth communicated adsorption area comprises sixth width direction vacuum pipelines which are arranged at the end part of the platform body in parallel at intervals with the fifth width direction vacuum pipelines, one end of each sixth width direction vacuum pipeline is communicated to the side edge of the platform body, two ends of each sixth width direction vacuum pipeline are communicated and connected with a sixth length direction vacuum pipeline in a crossing mode, two sixth vacuumizing connection auxiliary pipelines which are arranged along the length direction of the platform body are further arranged in the middle of each sixth width direction vacuum pipeline, one end of each sixth vacuumizing connection auxiliary pipeline extends into the third communicated adsorption area and is provided with a corresponding vacuumizing interface, the other end of each sixth vacuumizing connection auxiliary pipeline is connected to the side edge of the platform body, and the sixth width direction vacuum pipelines, the sixth length direction vacuum pipelines and the sixth vacuumizing connection auxiliary pipelines are all located on the first horizontal plane.

Like this, increased at platform body along length direction's one end side and set up fifth intercommunication adsorption zone and sixth intercommunication adsorption zone, these two regions are less than platform width direction's size at platform length direction's size, have greatly increased the size kind scope that can form the adsorption zone for the glass screen product that more shapes required can be integrated realizes fixed cutting on a work platform. And the self structure setting of the fifth communication adsorption area and the sixth communication adsorption area has the advantages of simple structure, easy processing, and capability of leading the vacuumizing interface to the middle position of the platform so as to facilitate vacuumizing. When the vacuum pumping device is implemented, the vacuum pumping pipelines which are positioned in the same communicated adsorption area and are not positioned on the same horizontal plane are communicated by virtue of the channel arranged in the vertical direction of the platform body.

During specific implementation, the arrangement structure of the fifth communicated adsorption region and the sixth communicated adsorption region can be adjusted as follows, under the condition that the projection positions of the vacuum pipelines in the fifth communicated adsorption region and the sixth communicated adsorption region on the horizontal plane are not changed, the positions of the vacuum pipelines in the vertical direction of the platform body are adjusted, so that the fifth width direction vacuum pipelines, the sixth width direction vacuum pipelines and the sixth length direction vacuum pipelines on the same side of the fifth length direction vacuum pipeline are all arranged on the second horizontal plane, and the rest sixth length direction vacuum pipelines, the fifth length direction vacuum pipelines, the auxiliary pipelines for fifth vacuumizing connection and the auxiliary pipelines for sixth vacuumizing connection are all arranged on the first horizontal plane. Therefore, all vacuum pipelines can be arranged only in two horizontal planes, the thickness required by the platform body is greatly reduced, and materials are saved. Only in this arrangement, a plurality of vertical holes need to be formed in the platform body between the fifth width direction vacuum pipelines and the fifth length direction vacuum pipelines to enable the vertical holes to be communicated, and the processing is relatively inconvenient.

In conclusion, the screen glass fixing device can better fix the screen glass, and has the advantages of better stability and reliability, and improved cutting precision and product quality.

Drawings

Fig. 1 is a schematic structural view of an integrated screen glass cutting and fixing working platform according to the present invention.

Fig. 2 is a top view of a portion of the vacuum line of fig. 1 alone. In fig. 2, the first communicating adsorption region, the third communicating adsorption region and the fifth communicating adsorption region are indicated by solid lines, and the second communicating adsorption region, the fourth communicating adsorption region and the sixth communicating adsorption region are indicated by dotted lines.

FIG. 3 is a schematic view of a single first communicating adsorbent region of FIG. 2.

FIG. 4 is a schematic view of the isolated second interconnected adsorbent region of FIG. 2.

FIG. 5 is a schematic view of a single third interconnected adsorbent region of FIG. 2.

FIG. 6 is a schematic view of a single fourth interconnected adsorbent region of FIG. 2.

FIG. 7 is a schematic view of the fifth isolated connected adsorbent region of FIG. 2.

FIG. 8 is a schematic view of the sixth interconnected adsorbent region alone of FIG. 2.

Fig. 9 is a schematic perspective view of fig. 2.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments.

The specific implementation mode is as follows: the screen glass production and cutting method based on the integral fixed working platform is characterized in that a support plane with a horizontally arranged area larger than the area to be cut of the screen glass substrate is adopted to support the screen glass substrate to be cut, and adsorption ports which are uniformly arrayed and have the same size are adopted to provide uniform downward suction to fix the screen glass substrate to be cut.

Like this, adopt the whole downside plane of a level setting to treat the cutting screen glass substrate to realize supporting, then adopt even array arrangement and the same adsorption affinity of size to provide even adsorption affinity and realize fixing, improved the fixed reliability and the stability of screen glass. Therefore, the stress balance of the screen glass during cutting is ensured, the cutting precision is improved, and the product precision is improved.

Specifically, in the method, an integral screen glass cutting and fixing working platform is adopted to fix the screen glass to be cut during cutting, and the integral screen glass cutting and fixing working platform, as shown in fig. 1-9, comprises a platform body 3 in an integral horizontal flat structure, the upper surface of the platform body 3 is a supporting plane, the upper surface of the platform body is provided with a plurality of vertically downward adsorption ports 1, the adsorption ports 1 are uniformly arranged in an array, a plurality of vacuum pipelines 4 arranged along the horizontal direction are arranged in the platform body 1, and each adsorption port 1 is communicated with a corresponding vacuum pipeline.

In the above scheme, the adsorption ports are arranged in an even array, which means that the adsorption ports in only part of the regions on the support plane are arranged in an even array, so that the glass screen can be uniformly adsorbed and fixed in a specified size without uniformly arranging all the adsorption ports according to the equal distance. Therefore, because the number of the adsorption ports on the working platform is large, two or more plates are overlapped and fixed to form the working platform in a conventional design method for facilitating the arrangement of the vacuum pipeline, and the through grooves between the plates can be conveniently formed to form the vacuum pipeline. However, the structural mode of fixedly forming the working platform after the plurality of plates are overlapped has the following defects: 1 is that the fluting region needs each absorption mouth of intercommunication, so the area is great, can form the weak position of platform support intensity, can produce certain sunken deformation under the adsorption affinity of the fixed in-process of screen glass, leads to the screen glass atress uneven, and then influences the cutting quality. 2 be in order to improve real hole absorption fixed effect, need sealed fixed and sealed requirement higher between the panel, the long back of device operating time, sealed fixed position is used for the easy fatigue failure of fixed screw spare not hard up, and then influences the adsorption effect, influences the cutting effect.

In the scheme, the platform body 3 is obtained by a horizontal flat-plate-shaped member, and the adsorption vacuumizing structure is arranged on the same plate member, so that the defects can be avoided, the reliability and stability of adsorption and fixation are improved, the stability and durability of cutting quality are ensured, the warping and deformation of the cut screen glass are prevented, and the service life of the device is greatly prolonged.

Wherein, the vacuum pipeline 4 is a pipeline which is arranged along the linear direction and has a circular section, and at least one end of the vacuum pipeline is arranged on the side surface of the platform body.

Like this, can conveniently follow the mode processing that adopts drilling on the platform body side and obtain the vacuum line, the section of vacuum line on vertical direction is circular simultaneously, can be better transmit pressure from top to bottom, and the cavity position of furthest avoiding answering the vacuum line leads to the platform upper surface to produce sunken deformation.

Wherein, the vacuum pipeline 4 is provided with a plug (not shown) on the opening of the side surface of the platform body, and a vertical vacuumizing interface 5 is arranged below the platform body and communicated with the vacuum pipeline.

Therefore, the opening on the side surface of the vacuum pipeline can be blocked by the plug during vacuumizing, and then the vacuumizing device is used for vacuumizing below the platform body, so that the vacuumizing device is more convenient to install and arrange.

Wherein, the platform body still is provided with the mounting hole 2 that is used for the installation to fix oneself on two relative sides at least.

Like this, conveniently realize the fixed of platform body self on the mount pad through the mounting hole.

Wherein, mounting hole 2 is a plurality of and be evenly spaced horizontal row form setting.

Like this, can make the platform body itself can be atress more evenly when fixed mounting, avoid the atress inequality to lead to the influence of deformation to the platform body.

The vacuum pipelines 4 are communicated with each other to form a communicated adsorption area at least corresponding to the area of a product with a specific model, a plurality of communicated adsorption areas are formed on the platform body, and each communicated adsorption area is provided with a pair of vacuumizing interfaces which are positioned below and communicated with the vacuum pipelines.

Like this, on same mounting platform, can adsorb the region through the intercommunication of difference, carry out the absorption of corresponding size to the screen glass product of different models size and fix and the cutting, can realize like this that the pertinence to multiple different products is fixed, improved the device practicality.

Wherein, be the semi-surrounding formula structural arrangement from inside to outside between each connection adsorption zone on the whole. The overall meaning is that at least most of the connected adsorption areas are arranged in a semi-surrounding structure, but there may be a separate part of the connected adsorption areas in the form of independent areas.

In this way, each communicating adsorption region can be used alone to form a platform adsorption surface of a specific area, and when necessary, the outer communicating adsorption region can be used in combination with the inner communicating adsorption region to form an adsorption surface of a larger area. Therefore, by adopting the structural arrangement mode, more specific adsorption areas of products with different models and sizes can be realized by adopting less area, and the practicability of the device is greatly improved.

Therefore, the arrangement of the vacuum pipeline is more convenient, and the thickness of the platform body can be reduced better.

Wherein, each intercommunication adsorption zone's evacuation interface all is located platform body below middle part position and wholly centers on and is similar annular structure and arranges.

Like this, it arranges evacuating device in platform body below middle part to be convenient more, and convenient adjustment switches.

The communication adsorption area comprises a first communication adsorption area 6 positioned in the middle of one side of the platform body, the first communication adsorption area 6 comprises a plurality of first length direction vacuum pipelines which are uniformly arranged along the width direction of the platform body at intervals, the first length direction vacuum pipelines extend to the position near the middle of the platform body along the length direction from one side edge of the length direction of the platform body, the first communication adsorption area also comprises at least one first width direction vacuum pipeline which is arranged along the width direction of the platform, the first width direction vacuum pipeline is communicated and connected with the first length direction vacuum pipelines and extends to the side edge along the single side of the width direction of the platform body, and the first length direction vacuum pipeline and the first width direction vacuum pipeline are positioned on a first horizontal plane;

the communicated adsorption region further comprises a second communicated adsorption region 7 which is arranged outside the first communicated adsorption region in a semi-surrounding mode, the second communicated adsorption region 7 comprises a plurality of second length direction vacuum pipelines distributed on two sides of the first communicated adsorption region in the width direction of the platform body, the second length direction vacuum pipelines are uniformly arranged along the width direction of the platform body at intervals, the second communicated adsorption region further comprises at least one second width direction vacuum pipeline, the second width direction vacuum pipelines are uniformly arranged along the length direction of the platform body at intervals and are positioned on the outer side, away from the direction of the first width direction vacuum pipeline, the second width direction vacuum pipelines extend to the side edge along one side edge of the width direction of the platform body, the direction of the second width direction vacuum pipelines extending to the side edge of the platform body is opposite to the direction of the first width direction vacuum pipelines extending to the side edge of the platform body, the second length direction vacuum pipelines and the second width direction vacuum pipelines are both positioned on a second horizontal plane, and the first horizontal plane are arranged in a staggered mode in the height direction;

the communicated adsorption region further comprises a third communicated adsorption region 8 which is arranged outside the second communicated adsorption region in a semi-enclosed mode, the third communicated adsorption region 8 comprises a plurality of third length direction vacuum pipelines distributed on two sides of the second communicated adsorption region in the width direction of the platform body, the third length direction vacuum pipelines are uniformly arranged along the width direction of the platform body at intervals, the third communicated adsorption region further comprises at least one third width direction vacuum pipeline, the third width direction vacuum pipelines are uniformly arranged along the length direction of the platform body at intervals and are positioned on the outer side, away from the direction of the first communicated adsorption region, of the second width direction vacuum pipelines, the third width direction vacuum pipelines extend to the side edge of the platform body along one side of the width direction of the platform body, the direction of the third width direction vacuum pipelines is the same as the direction of the second width direction vacuum pipelines, the third length direction vacuum pipelines extending to the same side edge of the platform body and the third width direction vacuum pipelines are positioned on the first horizontal plane, the third length direction vacuum pipelines and the third width direction vacuum pipelines on the same side edge of the platform body are positioned on the first horizontal plane, and a connecting pipe plug is arranged below the second horizontal plane;

the communicated adsorption area further comprises a fourth communicated adsorption area 9, the fourth communicated adsorption area 9 comprises fourth length direction vacuum pipelines distributed on two sides of the third communicated adsorption area in the width direction of the platform body, the fourth communicated adsorption area further comprises fourth width direction vacuum pipelines extending along the width direction of the platform body, the fourth length direction vacuum pipelines which are connected to the side edge of the platform body through the first width direction vacuum pipelines and are consistent in direction are located on the second horizontal plane, the fourth length direction vacuum pipelines and the fourth width direction vacuum pipelines on the other side are located on the first horizontal plane (the fourth length direction vacuum pipelines and the fourth width direction vacuum pipelines are communicated through a vertical downward connecting pipeline, and the lower port of the connecting pipeline can be plugged by an end cap).

Like this, adopt the vacuum line arrangement space of only two-layer horizontal plane, arranged four and be the intercommunication adsorption zone of half surrounding structure in proper order, and make respective vacuum tube each can not interfere each other ingeniously, so can realize reaching more intercommunication adsorption zone's arrangement with thinner platform size, greatly improved the integrated performance of device, realize the use possibility that equipment is more with less equipment material cost, greatly improved the practicality of device.

The communicated adsorption region further comprises a fifth communicated adsorption region 10, the fifth communicated adsorption region 10 is positioned at one end of the platform body, which is deviated from the direction of the first communicated adsorption region, the fifth communicated adsorption region comprises a plurality of fifth width direction vacuum pipelines arranged along the width direction of the platform body, the fifth width direction vacuum pipelines are uniformly distributed at intervals along the length direction of the platform body, one end of each fifth width direction vacuum pipeline extends to the side edge of the platform body, the other end of each fifth width direction vacuum pipeline is intersected and communicated with a fifth length direction vacuum pipeline arranged along the length direction of the platform body, one end of each fifth length direction vacuum pipeline, which is deviated from the first communicated adsorption region, extends to the side surface of the end part of the platform body, each fifth width direction vacuum pipeline and each fifth length direction vacuum pipeline are positioned on a second horizontal plane, the fifth communicated adsorption region further comprises two fifth vacuumizing connection auxiliary pipelines arranged along the length direction of the platform body, the fifth vacuumizing connection auxiliary pipelines are positioned on the third horizontal plane, one end of each fifth vacuumizing connection auxiliary pipeline extends into the third communicated adsorption region and is provided with a corresponding vacuumizing interface, and the other end of the platform body is connected to the side edge of the platform body;

the communicated adsorption area further comprises a sixth communicated adsorption area 11, the sixth communicated adsorption area 11 comprises sixth width direction vacuum pipelines which are arranged at the end part of the platform body in parallel at intervals with the fifth width direction vacuum pipelines, one end of each sixth width direction vacuum pipeline is communicated to the side edge of the platform body, two ends of each sixth width direction vacuum pipeline are communicated with the sixth length direction vacuum pipelines in a penetrating and intersecting manner, two sixth vacuumizing connection auxiliary pipelines which are arranged along the length direction of the platform body are further arranged in the middle of each sixth width direction vacuum pipeline, one end of each sixth vacuumizing connection auxiliary pipeline extends into the third communicated adsorption area and is provided with a corresponding vacuumizing port, the other end of each sixth width direction vacuum pipeline is connected to the side edge of the platform body, and the sixth width direction vacuum pipelines, the sixth length direction vacuum pipelines and the sixth vacuumizing connection auxiliary pipelines are all located on the first horizontal plane.

Like this, increased at platform body along length direction's one end side and set up fifth intercommunication adsorption zone and sixth intercommunication adsorption zone, these two regions are less than platform width direction's size at platform length direction's size, have greatly increased the size kind scope that can form the adsorption zone for the glass screen product that more shapes required can be integrated realizes fixed cutting on a work platform. And the self structure setting of the fifth communication adsorption area and the sixth communication adsorption area has the advantages of simple structure, easy processing, and capability of leading the vacuumizing interface to the middle position of the platform so as to facilitate vacuumizing. When the vacuum pumping device is implemented, the vacuum pumping pipelines which are positioned in the same communicated adsorption area and are not positioned on the same horizontal plane are communicated by virtue of the channel arranged in the vertical direction of the platform body.

During specific implementation, the arrangement structure of the fifth communicated adsorption region and the sixth communicated adsorption region can be adjusted as follows, under the condition that the projection positions of the vacuum pipelines in the fifth communicated adsorption region and the sixth communicated adsorption region on the horizontal plane are not changed, the positions of the vacuum pipelines in the vertical direction of the platform body are adjusted, so that the fifth width direction vacuum pipelines, the sixth width direction vacuum pipelines and the sixth length direction vacuum pipelines on the same side of the fifth length direction vacuum pipeline are all arranged on the second horizontal plane, and the rest sixth length direction vacuum pipelines, the fifth length direction vacuum pipelines, the auxiliary pipelines for fifth vacuumizing connection and the auxiliary pipelines for sixth vacuumizing connection are all arranged on the first horizontal plane. Therefore, all vacuum pipelines can be arranged only in two horizontal planes, the thickness required by the platform body is greatly reduced, and materials are saved. Only in this arrangement, a plurality of vertical holes need to be formed in the platform body between the fifth width direction vacuum pipelines and the fifth length direction vacuum pipelines to enable the vertical holes to be communicated, and the processing is relatively inconvenient.

Claims (7)

1. A screen glass production cutting method based on an integral fixed working platform fixes a plate-shaped screen glass substrate to be cut in a horizontal state in a mode of adsorption at the lower side surface, and then cuts the screen glass substrate from the upper side by adopting a cutting device, and is characterized in that a support plane with the horizontally arranged area larger than the area to be cut of the screen glass substrate is adopted to support the screen glass substrate to be cut, and adsorption ports which are uniformly arrayed and have the same size are adopted on the support plane to provide uniform downward suction to fix the screen glass substrate to be cut;

when cutting, fixing the screen glass to be cut by adopting an integral screen glass cutting and fixing working platform, wherein the integral screen glass cutting and fixing working platform comprises a platform body in an integral horizontal flat plate-shaped structure, the upper surface of the platform body is a supporting plane, a plurality of vertical downward adsorption ports are formed in the upper surface of the platform body, the adsorption ports are uniformly arranged in an array manner, a plurality of vacuum pipelines are arranged in the platform body in the horizontal direction, and each adsorption port is communicated with a corresponding vacuum pipeline; the vacuum pipeline is arranged along the linear direction and has a circular section, and the vacuum pipeline is obtained by drilling on the side surface of the platform body;

the vacuum pipelines are mutually communicated to form a communicated adsorption region corresponding to the area of at least one product with a specific model, a plurality of communicated adsorption regions are formed on the platform body, and each communicated adsorption region is provided with a pair of vacuumizing interfaces which are positioned below and communicated with the vacuum pipelines;

the communicated adsorption region comprises a first communicated adsorption region positioned in the middle of one side of the platform body, the first communicated adsorption region comprises a plurality of first length direction vacuum pipelines which are uniformly arranged along the width direction of the platform body at intervals, the first length direction vacuum pipelines extend to the position near the middle of the platform body along the length direction from one side edge of the length direction of the platform body, the first communicated adsorption region also comprises at least one first width direction vacuum pipeline which is arranged along the width direction of the platform, the first width direction vacuum pipeline is communicated with the first length direction vacuum pipelines and extends to the side edge along the single side of the width direction of the platform body, and the first length direction vacuum pipeline and the first width direction vacuum pipeline are positioned on a first horizontal plane;

the communicated adsorption region further comprises a second communicated adsorption region which is arranged outside the first communicated adsorption region in a semi-surrounding mode, the second communicated adsorption region comprises a plurality of second length direction vacuum pipelines distributed on two sides of the first communicated adsorption region in the width direction of the platform body, the second length direction vacuum pipelines are uniformly arranged at intervals in the width direction of the platform body, the second communicated adsorption region further comprises at least one second width direction vacuum pipeline, the second width direction vacuum pipelines are uniformly arranged at intervals in the length direction of the platform body and are positioned on the outer side, away from the direction of the first communicated adsorption region, of the first width direction vacuum pipelines, the second width direction vacuum pipelines extend to the side edge along one side of the width direction of the platform body, the direction of the second width direction vacuum pipelines extending to the side edge of the platform body is opposite to the direction of the first width direction vacuum pipelines extending to the side edge of the platform body, the second length direction vacuum pipelines and the second width direction vacuum pipelines are both positioned on a second horizontal plane, and the first horizontal plane are arranged in a staggered mode in the height direction;

the communicated adsorption region further comprises a third communicated adsorption region which is arranged outside the second communicated adsorption region in a semi-surrounding mode, the third communicated adsorption region comprises a plurality of third length direction vacuum pipelines distributed on two sides of the second communicated adsorption region in the width direction of the platform body, the third length direction vacuum pipelines are uniformly arranged at intervals in the width direction of the platform body, the third communicated adsorption region further comprises at least one third width direction vacuum pipeline, the third width direction vacuum pipelines are uniformly arranged at intervals in the length direction of the platform body and are positioned on the outer side, away from the direction of the first communicated adsorption region, of the second width direction vacuum pipelines, the third width direction vacuum pipelines extend to the side edge of the platform body along one side of the width direction of the platform body, the direction of the third width direction vacuum pipelines extending to the side edge of the platform body is the same as the direction of the second width direction vacuum pipelines extending to the side edge of the platform body, the third length direction vacuum pipelines positioned on the same side as the third width direction vacuum pipelines extending to the side edge of the platform body are positioned on a first horizontal plane, and the third length direction vacuum pipelines and the third width direction vacuum pipelines on the other side are positioned on a second horizontal plane;

the connection adsorption area further comprises a fourth connection adsorption area, the fourth connection adsorption area comprises fourth length direction vacuum pipelines distributed on two sides of the third connection adsorption area in the width direction of the platform body, the fourth connection adsorption area further comprises fourth width direction vacuum pipelines extending along the width direction of the platform body, the fourth length direction vacuum pipelines which are connected to the side edge of the platform body through the first width direction vacuum pipelines and are consistent in direction are located on the second horizontal plane, and the fourth length direction vacuum pipelines and the fourth width direction vacuum pipelines on the other side are located on the first horizontal plane.

2. The screen glass production cutting method based on the integral fixed working platform as claimed in claim 1, wherein the vacuum pipeline is a pipeline which is arranged along a straight line and has a circular section, and at least one end of the vacuum pipeline is provided on the side surface of the platform body.

3. The screen glass production cutting method based on the integral fixed working platform as claimed in claim 2, wherein a plug is arranged on an opening on the side surface of the platform body of the vacuum pipeline, and a vertical vacuumizing port is arranged below the platform body and communicated with the vacuum pipeline.

4. The screen glass production and cutting method based on the integrated fixed working platform as claimed in claim 2, wherein the platform body is further provided with mounting holes for mounting and fixing itself on at least two opposite side surfaces; the mounting hole is a plurality of and be evenly spaced horizontal row form setting.

5. The method for producing and cutting screen glass based on an integral fixed working platform as claimed in claim 1, wherein the communicated adsorption areas are arranged in a semi-surrounding structure from inside to outside on the whole.

6. The screen glass production and cutting method based on the integral fixed working platform as claimed in claim 1, wherein the vacuum pumping ports of the respective communicating and adsorbing areas are located at the lower middle position of the platform body and are integrally arranged around the platform body in a ring-like structure.

7. The screen glass production cutting method based on the integral fixed working platform as claimed in claim 1, wherein the communication adsorption region further comprises a fifth communication adsorption region, the fifth communication adsorption region is located at one end of the platform body facing away from the direction of the first communication adsorption region, the fifth communication adsorption region comprises a plurality of fifth width direction vacuum pipelines arranged along the width direction of the platform body, the fifth width direction vacuum pipelines are uniformly arranged along the length direction of the platform body at intervals, one end of the fifth width direction vacuum pipeline extends to the side edge of the platform body, the other end of the fifth width direction vacuum pipeline is connected with a fifth length direction vacuum pipeline arranged along the length direction of the platform body in a crossing and penetrating manner, one end of the fifth length direction vacuum pipeline facing away from the first communication adsorption region extends to the side surface of the end portion of the platform body, the fifth width direction vacuum pipeline and the fifth length direction vacuum pipeline are both located on the second horizontal plane, the fifth communication adsorption region further comprises fifth evacuation connection auxiliary pipelines arranged along the length direction of the platform body, the fifth evacuation connection auxiliary pipelines are located on the third horizontal plane, one end of the fifth evacuation connection auxiliary pipelines extends into the third communication adsorption region and is connected to the corresponding side edge of the platform body;

the communicated adsorption area further comprises a sixth communicated adsorption area, the sixth communicated adsorption area comprises sixth width direction vacuum pipelines which are arranged at the end part of the platform body in parallel at intervals with the fifth width direction vacuum pipelines, one end of each sixth width direction vacuum pipeline is communicated to the side edge of the platform body, two ends of each sixth width direction vacuum pipeline are communicated and connected with a sixth length direction vacuum pipeline in a crossing mode, two sixth vacuumizing connection auxiliary pipelines which are arranged along the length direction of the platform body are further arranged in the middle of each sixth width direction vacuum pipeline, one end of each sixth vacuumizing connection auxiliary pipeline extends into the third communicated adsorption area and is provided with a corresponding vacuumizing interface, the other end of each sixth vacuumizing connection auxiliary pipeline is connected to the side edge of the platform body, and the sixth width direction vacuum pipelines, the sixth length direction vacuum pipelines and the sixth vacuumizing connection auxiliary pipelines are all located on the first horizontal plane.

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