CN113263634B - Glass processing technology - Google Patents

Abstract

The invention relates to the field of glass processing, in particular to a glass processing technology. A glass processing technology comprises the following steps: adding a glass raw material into a die with convex corners for molding and processing; step two: scribing scratches at the same positions of the inner side and the outer side of the raised part of the corner of the glass; step three: processing notches at the same positions of the inner side and the outer side of the raised edge according to the scratches for installation and use; the utility model provides a glass processing technology still uses a glass system of processing, a glass system of processing is including placing board, sliding fit post I, centre gripping slider and fixed suction cup, a plurality of sliding fit post I with place board fixed connection, a plurality of centre gripping sliders pass through the screw with a plurality of sliding fit post I respectively and can dismantle the connection, a plurality of fixed suction cups pass through the screw with a plurality of centre gripping sliders and can dismantle the connection.

Description

Glass processing technology

Technical Field

The invention relates to the field of glass processing, in particular to a glass processing technology.

Background

The invention discloses a glass processing device and a glass processing system, which are disclosed in the patent number CN 201910168398.2. The glass processing equipment comprises a forming area setting unit and a heating area, a forming area and an annealing cooling area which are sequentially arranged in the forming area setting unit, wherein the heating area is formed by arranging at least one heating unit, the forming area is formed by arranging at least one forming unit, the annealing cooling area is formed by arranging at least one annealing cooling unit, a heating channel, a forming channel and an annealing cooling channel for a mold to pass through are respectively formed in the heating unit, the forming unit and the annealing cooling unit, at least one of the heating area, the forming area and the annealing cooling unit is arranged in the forming area setting unit through a positioning part, and the residence time of the mold in each channel can be changed by adjusting the setting number and/or the setting type of the heating unit, the forming unit and the annealing cooling unit. The glass processing equipment can improve the automation level and reduce the energy consumption, but the invention can not realize the same mark engraving at the same position of the inner side and the outer side of a raised corner of the glass.

Disclosure of Invention

The invention provides a glass processing technology for overcoming the defects of the prior art, and has the beneficial effects that the same marks can be carved at the same positions of the inner side and the outer side of one raised corner of glass, so that the same notches are conveniently processed at the inner side and the outer side of the raised corner in subsequent processing, and the processing deviation is not easy to occur.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the glass processing technology comprises the following steps

The method comprises the following steps: adding a glass raw material into a die with convex corners for molding and processing;

step two: scribing scratches at the same positions of the inner side and the outer side of the raised part of the glass corner;

step three: processing notches at the same positions of the inner side and the outer side of the raised corner according to the scratches for installation and use;

the utility model provides a glass processing technology still uses a glass processing system, a glass processing system is including placing board, slip fit post I, centre gripping slider and fixed suction cup, a plurality of slip fit post I with place board fixed connection, a plurality of centre gripping sliders pass through the screw with a plurality of slip fit post I respectively and can dismantle the connection, a plurality of fixed suction cups pass through the screw with a plurality of centre gripping sliders and can dismantle the connection.

The glass processing technology further uses a glass processing system, the glass processing system further comprises a sliding groove and a sliding fit column II, the sliding fit column II is connected with the sliding groove in a sliding mode, a clamping sliding block is detachably connected with the sliding fit column II through a screw, and the sliding fit column II is fixed through the screw.

The glass processing technology further uses a glass processing system, the glass processing system further comprises a connecting plate, gravers and a transmission coil, the two gravers are connected with two sides of the connecting plate in a sliding mode, two sides of the transmission coil are fixedly connected with the two gravers respectively, and the transmission coil is connected with the connecting plate in a rotating mode.

A glass processing technology still uses a glass processing system, and a glass processing system still includes stand and spring I, connecting plate and two stand sliding connection, one side and two stand fixed connection of two springs I, the opposite side and the connecting plate fixed connection of two springs I.

The glass processing technology further comprises a sliding seat and an L-shaped sliding groove I, the two stand columns are connected with the sliding seat, the L-shaped sliding groove I is located on the placing plate, and the sliding seat is connected with the L-shaped sliding groove I in a sliding mode.

The glass processing technology further uses a glass processing system, the glass processing system further comprises two shaking handles, and the two shaking handles are fixedly connected with the two sides of the transmission coil.

The glass processing technology further uses a glass processing system, the glass processing system further comprises a positioning knife, a limiting column and a spring II, the positioning knife is in sliding connection with the limiting column, one end of the spring II is fixedly connected with a connecting plate, the other end of the spring II is fixedly connected with the positioning knife, and a knife head of the positioning knife is located at the midpoint of the two carving knives.

The glass processing technology also uses a glass processing technology, the glass processing system also comprises a protection groove, and the protection groove is arranged on the connecting plate.

The glass processing technology further uses a glass processing technology, the glass processing system further comprises a fixing plate, a pressing plate, a limiting cylinder and a spring III, the fixing plate is fixedly connected with a connecting plate, the limiting cylinder is fixedly connected with the connecting plate, the limiting cylinder is slidably connected with the pressing plate, one end of the spring III is fixedly connected with the connecting plate, and the other end of the spring III is fixedly connected with the pressing plate.

Thus, according to some embodiments of the disclosure:

the same marks are engraved at the same positions of the inner side and the outer side of one raised corner of the glass, so that the same notches are conveniently machined at the inner side and the outer side of the raised corner in subsequent machining, and machining deviation is not easy to occur.

Drawings

The present disclosure may be more clearly understood from the following detailed description, taken with reference to the accompanying drawings, in which:

FIG. 1 is a schematic structural view of a placing plate and a sliding fit column II;

FIG. 2 is a schematic view of the structure of the placing plate and the fixed suction cup;

FIG. 3 is a schematic structural diagram of a connecting plate and an L-shaped chute I;

FIG. 4 is a schematic view of the structure of the driving coil and the carving knife;

FIG. 5 is a schematic view of the positioning blade and the protection groove;

FIG. 6 is a schematic structural view of a column and a connecting plate;

FIG. 7 is a schematic view of the drive coil and hold-down plate configuration;

FIG. 8 is a schematic structural view of a mating plate and a sanding plate;

FIG. 9 is a schematic view of the structure of the sliding bars and the sanding plate;

fig. 10 is a schematic view of a structure for placing the plate and the glass.

In the figure: a placing plate 101; a chute 103; an L-shaped chute I105; a sliding fit column I201; a clamping slide 202; a fixed suction cup 203; a sliding fit post II 204; a slide base 301; a rotary joint 302; a column 303; a spring I304; a slide bar 305; a pulling portion 306; a connection plate 401; a nicking knife 402; a drive coil 403; shaking the handle 404; a protective groove 405; a positioning knife 501; a restraint post 502; a spring II 503; a mating plate 601; a drive post 602; a sanding plate 603; an L-shaped chute III 604; a sliding bar 605; a glass 701; an L-shaped protrusion 702; a fixing plate 801; a compression plate 802; a limiting cylinder 803; and a spring III 804.

Detailed Description

1. A glass processing technology comprises the following steps

The method comprises the following steps: adding a glass raw material into a die with convex corners for molding and processing;

step two: scribing scratches at the same positions of the inner side and the outer side of the raised part of the corner of the glass;

step three: processing notches at the same positions of the inner side and the outer side of the raised edge according to the scratches for installation and use;

as an example, as shown in fig. 2 and 10, this example solves the problem of holding the glass 701 while avoiding the mark left on the glass 701.

Because a plurality of sliding fit columns I201 are fixedly connected to the placing plate 101, a plurality of clamping sliding blocks 202 are detachably connected to the sliding fit columns I201 through screws respectively, a plurality of fixing suction cups 203 are detachably connected to the clamping sliding blocks 202 through screws, a worker unscrews the screws connecting the fixing suction cups 203 and the clamping sliding blocks 202 before placing the glass 701, then lifts the fixing suction cups 203 to leave a space for placing the glass 701, presses the fixing suction cups 203 tightly on the glass 701 to fix after the glass 701 is placed on the placing plate 101, then screws connecting the fixing suction cups 203 and the clamping sliding blocks 202 are screwed, further fixes the glass 701, and simultaneously, because the fixing suction cups 203 are adopted to fix the glass 701, traces can be prevented from being left on the glass 701 due to over hardness of the fixing clamps during fixing, and accordingly the glass forming effect 701 is influenced.

In addition, as an example, as shown in fig. 1 to 2, this example solves the problem of placing the glass to be processed 701 on the placing plate 101.

Because the sliding fit column II 204 is connected in the sliding chute I103 in a sliding mode, the clamping sliding block 202 is detachably connected to the sliding fit column II 204 through screws, and the sliding fit column II 204 can be fixed through screws, when the glass 701 needs to be placed on the placing plate 101, a worker can slide the sliding fit column II 204 to one side of the placing plate 101 through unscrewing the screws used for fixing the sliding fit column II 204, so that the glass 701 is placed on the placing plate 101, then the sliding fit column II 204 is slid back and fixed through the screws, and then the glass 701 is fixed through the plurality of fixing suction cups 203, so that the purpose of providing space for placing of the glass 701 is achieved.

In addition, as an example, as shown in fig. 4, this example solves the problem of enabling two scribing knives 402 to scribe at the same position on both sides of the L-shaped projection 702 of the glass 701.

Because the equal sliding connection in connecting plate 401 both sides has the carving sword 402, two carving sword 402 are fixed connection respectively in transmission coil 403 both sides, it is connected with transmission coil 403 to rotate on the connecting plate 401, be equipped with the protruding 702 of L type on the glass 701, when needing to carve the protruding 702 of L type to glass 701, the staff can be through rotating transmission coil 403, thereby make two carving sword 402 move to the centre simultaneously, because the distance that two carving sword 402 moved inwards equals, make two carving sword 402 can contact the same position of the protruding 702 both sides of L type simultaneously, begin the carving afterwards, thereby realize can carve the drawing simultaneously at the same position of the protruding 702 both sides of L type at two carving sword 402, be convenient for carve out the same sign in the protruding 702 both sides of L type, make the staff when carrying out follow-up processing, the problem that takes place the deviation when the same notch of the protruding 702 department inside and outside both sides processing of L type.

In addition, as an example, as shown in fig. 1-2, this example solves the problem of enabling two engraving knives 402 to engrave vertically oriented marks.

Because sliding connection has connecting plate 401 on two stands 303, one side of two springs I304 of fixedly connected with on connecting plate 401, the opposite side of two springs I304 of fixedly connected with on two stands 303, add man-hour when needing the protruding 702 both sides of L type, the staff at first drags two carving tools 402 downwards, make carving tool 402 reach to rotate transmission coil 403 after the suitable position and make two carving tools 402 and the protruding 702 inside and outside both sides contact of L type, continue to drag two carving tools 402 afterwards, thereby make two carving tools 402 process the same vertical direction seal of a government organization in old fashioned protruding 702 both sides of L type, the pulling force of two springs I304 makes two carving tools 402 can hang in the protruding 702 top of L type under the external force condition not receiving when having no external force.

In addition, as an example, as shown in fig. 3, this example solves the problem of enabling two engraving knives 402 to engrave horizontal direction marks.

Because slide 301 is last all to be connected with two stands 303, place and be provided with L type spout I105 on the board 101, sliding connection has slide 301 in L type spout I105, when needs make two burin knives 402 carve out the horizontal direction seal in the protruding 702 inside and outside both sides of L type, thereby the staff can slide through controlling two slides 301 and drive two stands 303 and slide to drive two burin knives 402 and slide, thereby make two burin knives 402 carve out the horizontal direction seal of a government organization in old china in the protruding 702 inside and outside both sides of L type.

In addition, as an example, as shown in fig. 4, this example solves the problem of facilitating the rotation of the driving coil 403.

Because two shaking handles 404 are fixedly connected to two sides of the transmission coil 403 respectively, the worker can rotate the transmission coil 403 by rotating the two shaking handles 404, so that the two gravers 402 can be controlled to be close to or far away from each other more easily.

In addition, as an example, as shown in fig. 4-5, this example solves the problem of preventing the L-shaped protrusion 702 from being located at the very middle of the two nicking knives 402.

Because sliding connection has location sword 501 on the spacing post 502, the one end of fixedly connected with spring II 503 on the connecting plate 401, the other end of fixedly connected with spring II 503 on the location sword 501, when the staff rotated left side and waved handle 404, the right side waved handle 404 and can hit location sword 501, thereby make location sword 501 slide down, thereby make the tool bit of location sword 501 and the protruding 702 contact of L type, make location sword 501 carve next vestige on the protruding 702 of L type, the staff can confirm whether L type is protruding 702 and be located two carving knife 402 middles according to this vestige, if not be located then need adjust the position of glass 701, thereby make two carving knives can contact L type protruding 702 both sides simultaneously through waveing handle 404, because the effect of spring II 503, can make the location sword 501 can not cause too big harm on L type is protruding 702.

In addition, as an example, as shown in fig. 6, this example solves the problem of protecting the positioning blade 501 when the scribing blade 402 stamps the vertical direction.

Because the connecting plate 401 is provided with the protective groove 405, when the engraving knife 402 is operated to engrave a vertical mark, the positioning knife 501 can contact the L-shaped protrusion 702, and when the engraving knife 501 contacts the L-shaped protrusion 702, the spring ii 503 contracts, so that the positioning knife 501 can be pressed into the protective groove 405, and the positioning knife 501 and the L-shaped protrusion 702 are prevented from being damaged due to rigid contact.

In addition, as an example, as shown in fig. 7, this example solves the problem of fixing the rotation rear drive coil 403.

Because the fixing plate 801 is fixedly connected to the connecting plate 401, the limiting cylinder 803 is fixedly connected to the connecting plate 401, the pressing plate 802 is slidably connected to the limiting cylinder 803, one end of the spring iii 804 is fixedly connected to the connecting plate 401, and the other end of the spring iii 804 is fixedly connected to the pressing plate 802, before the rocking handle 404 is rocked, the pressing plate 802 pressed on the rotating shaft of the transmission coil 403 is moved away, so that the rocking handle 404 is operated to rotate the transmission coil 403, after the transmission coil 403 is rotated to a proper position, the pressing plate 802 is moved back, at the moment, the pressing plate 802 is pressed on the rotating shaft of the transmission coil 403 by the spring iii 804, the rotating shaft of the transmission coil 403 is fixed, and therefore, the transmission coil 403 is fixed after rotation.

The glass processing system further comprises a matching plate 601, a transmission column 602, a frosted plate 603 and an L-shaped sliding groove III 604, the frosted plate 603 is connected to the L-shaped sliding groove III 604 in a sliding mode, the L-shaped sliding groove III 604 is located on the connecting plate 401, the matching plate 601 is fixedly connected to the frosted plate 603, the transmission column 602 is fixedly connected to the carving knife 402 on one side, and the transmission column 602 can be inserted into the matching plate 601.

In addition, as an example, as shown in fig. 8 to 9, this example solves the problem that the inside of the L-shaped projection 702 is not flat.

After confirming that the positioning knife 501 is located in the middle of the L-shaped protrusion 702, if two engraving knives 402 cannot be in contact with two sides of the L-shaped protrusion 702 at the same time by shaking the transmission coil 403, it is proved that two sides of the L-shaped protrusion 702 are not flat, at this time, if the outer sides are not flat, a worker can directly polish the L-shaped protrusion, if the inner sides are not flat, the polishing difficulty is large, at this time, the polishing plate 603 can slide down by the method, and then the transmission coil 403 is shaken, so that the transmission column 602 located on the engraving knife 402 at the inner sides is inserted on the polishing plate 603, so that the polishing plate 603 is in contact with the L-shaped protrusion 702 in advance before the two engraving knives 402 are in contact with the L-shaped protrusion 702, at this time, by moving the engraving knives 402 at the outer sides, the worker can simply polish the uneven parts at the inner sides of the L-shaped protrusion 702 through the polishing plate 603 in this way, thereby reducing the polishing difficulty.

The corrugated pipe machining system further comprises a sliding barrier strip 605, wherein the sliding barrier strip 605 is connected to the connecting plate 401 in a sliding mode, and the sliding barrier strip 605 can be connected to the frosting plate 603 in a sliding mode.

In addition, as an example, as shown in fig. 8 to 9, this example solves the problem of moving up and fixing the sanding plate 603 when the sanding plate 603 is not used.

When not needing to use dull polish board 603, slide dull polish board 603 to L type spout III 604 top, slide the blend stop 605 afterwards, slide blend stop 605 to dull polish board 603 lower extreme with slide blend stop 605, make dull polish board 603 fixed by slide blend stop 605, thereby prevent to need the carving tool 402 during operation, dull polish board 603 keeps off the front end at inboard carving tool 402, make inboard carving tool 402 unable normal contact to the protruding 702 of L type, thereby unable completion is carved out the work purpose of seal of a government organization in old china on the protruding 702 of L type.

The glass processing system further comprises a rotary joint 302, wherein the rotary joint 302 is rotatably connected to the sliding base 301, and the two stand columns 303 are fixedly connected to the sliding base 301.

In addition, as an example, as shown in fig. 3, this example solves the problem of rotating the two nicking knives 402 to machine the other side of the L-shaped projection 702.

After finishing protruding 702 of L type one side, slide slider 301 slides L type spout I105 foremost, rotates swivel joint 302 afterwards to make two carving tool 402 change by the front and back orientation to left and right sides orientation, thereby make two carving tool 402 carry out the seal of a government organization in old china to the protruding 702 of L type opposite side, thereby carry out comprehensive seal of a government organization in old china processing to protruding 702 of L type, enlarge two carving tool 402's application range.

The glass processing system further comprises a sliding strip 305 and a lifting part 306, wherein the lifting part 306 is connected to the sliding strip 305 in a sliding mode, the two sliding strips 305 are fixedly connected to the two upright posts 303 respectively, the lifting part 306 is provided with a protrusion, and a groove is formed in a corresponding position on the connecting plate 401.

In addition, as an example, as shown in fig. 8, this example solves the problem of preventing the two nicking knives 402 from hitting the L-shaped protrusion 702 during rotation.

Before the staff rotates operating the rotary joint 302, firstly lift the connecting plate 401, then slide the lifting part 306, correspondingly install the protrusion on the lifting part 306 and the groove on the connecting plate 401, so that the two lifting parts 306 fix the connecting plate 401, at the moment, the two carving knives 402 are positioned above the L-shaped protrusion 702, and then operate the rotary joint 302 to rotate, so that the two carving knives 402 cannot collide with the L-shaped protrusion 702 in the rotating process.

Claims (6)

1. A glass processing technology comprises the following steps

The method comprises the following steps: adding a glass raw material into a die with convex corners for molding and processing;

step two: scribing scratches at the same positions of the inner side and the outer side of the raised part of the corner of the glass;

step three: processing notches at the same positions of the inner side and the outer side of the corner bulge according to the scratch for installation and use;

also uses a glass processing system which also comprises a connecting plate (401), a column (303), a spring I (304), a carving knife (402) and a sliding seat (301), positioning knife (501), spacing post (502), spring II (503), L type spout I (105) and transmission coil (403), two carving knife (402) sliding connection respectively are in connecting plate (401) both sides, transmission coil (403) both sides fixed connection respectively is on two carving knife (402), transmission coil (403) rotate to be connected on connecting plate (401), connecting plate (401) sliding connection is on two stands (303), one side of two spring I (304) fixed connection respectively is on two stands (303), the equal fixed connection of the opposite side of two spring I (304) is on connecting plate (401), two stands (303) all connect on slide (301), L type spout I (105) are located and place board (101), slide (301) sliding connection is in L type spout I (105), positioning knife (501) sliding connection is on spacing post (502), the one end fixed connection of spring II (503) is on connecting plate (401), the other end fixed connection of spring II (503) is on positioning knife (501), positioning knife (501) is located two carving knife 402) positive cutting heads.

2. A glass-working process according to claim 1, characterized in that: the glass processing system comprises a placing plate (101), sliding fit columns I (201), clamping sliding blocks (202) and fixed suction cups (203), wherein the sliding fit columns I (201) are fixedly connected to the placing plate (101) respectively, the clamping sliding blocks (202) are detachably connected to the sliding fit columns I (201) through screws respectively, and the fixed suction cups (203) are detachably connected to the clamping sliding blocks (202) through screws respectively.

3. A glass-working process according to claim 2, characterised in that: the glass processing system further comprises a sliding groove I (103) and a sliding fit column II (204), the sliding fit column II (204) is connected in the sliding groove I (103) in a sliding mode, the clamping sliding block (202) is detachably connected to the sliding fit column II (204) through screws, and the sliding fit column II (204) is fixed through the screws.

4. A glass treatment process according to claim 3, characterised in that: the glass processing system also comprises two rocking handles (404), wherein the two rocking handles (404) are respectively and fixedly connected to two sides of the transmission coil (403).

5. A glass-working process according to claim 4, characterized in that: the glass processing system further comprises a protective groove (405), and the protective groove (405) is located on the connecting plate (401).

6. A glass-working process according to claim 5, characterised in that: a glass processing system still include fixed plate (801), pressure strip (802), spacing cylinder (803) and spring III (804), fixed plate (801) fixed connection is on connecting plate (401), spacing cylinder (803) fixed connection is on connecting plate (401), pressure strip (802) sliding connection is on spacing cylinder (803), spring III (804) one end fixed connection is on connecting plate (401), spring III (804) other end fixed connection is on pressure strip (802).

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