CN114290173A

CN114290173A - Bilateral edge grinding machine and edge grinding process for glass deep processing

Info

Publication number: CN114290173A
Application number: CN202210107187.XA
Authority: CN
Inventors: 肖群; 欧阳铃波; 张海燕; 曾斌
Original assignee: Huizhou Xinzhenxin Glass Technology Co ltd
Current assignee: Huizhou Xinzhenxin Glass Technology Co ltd
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2022-04-08

Abstract

The invention relates to the technical field of glass, in particular to a double-side edge grinding machine for glass deep processing, which comprises a platform supporting frame, wherein one side of the platform supporting frame is provided with a first side supporting plate vertical to the side wall of the platform supporting frame, one side of the first side supporting plate is provided with a second side supporting plate, one side of the second side supporting plate is vertically connected with the side wall of the platform supporting frame, one side of the second side supporting plate is provided with a third side supporting plate, one side of the third side supporting plate is vertically connected with the side wall of the platform supporting frame, the second side supporting plate is provided with a plurality of sliding grooves, edge grinding ejection mechanisms are connected in the sliding grooves in a sliding manner, each edge grinding ejection mechanism comprises a transverse sliding frame, the device is respectively provided with an edge grinding ejection mechanism and a material guide platform through two sides of a conveying belt, then the edge grinding ejection mechanisms and the material guide platforms form a cross structure with the conveying belt, so that the conveying belt can form double-channel feeding, after the blockage is generated in one direction of the conveying belt, the conveying belt can feed materials in the other direction.

Description

Bilateral edge grinding machine and edge grinding process for glass deep processing

Technical Field

The invention relates to the technical field of glass, in particular to a double-side edge grinding machine and an edge grinding process for glass deep processing.

Background

The glass is a non-crystal inorganic non-metallic material, generally made up by using several inorganic minerals (as main raw material, adding small quantity of auxiliary raw material, its main component is silicon dioxide and other oxides, the chemical composition of general glass is Na2SiO3, CaSiO3, SiO2 or Na 2O. CaO.6SiO 2, etc., and its main component is silicate double salt, and is an amorphous solid with random structure, and can be extensively used in building, and can be used for insulating wind and transmitting light, belonging to a mixture, and in addition, it is a coloured glass in which some metal oxides or salts are mixed to develop colour, and tempered glass manufactured by physical or chemical methods, some transparent plastics (such as polymethylmethacrylate) are sometimes referred to as plexiglass, need carry out the edging to its both sides edge after the cutting after glass processes the end, can make the more smooth of glass's edge like this, and then need polish through the edging machine to glass processing.

The existing polishing has the following problems:

adopt conveyer belt single channel to send into the edging machine with glass and process when processing the edging to glass usually, when processing and meet the transport fault, can influence the efficiency of whole flow direction of packaging line.

Therefore, it is desirable to design a double-edge grinding machine and an edge grinding process for glass deep processing, which can solve the above problems.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a double-side edge grinding machine for glass deep processing and an edge grinding process.

The technical scheme adopted by the invention to achieve the aim is as follows: a bilateral edge grinding machine for glass deep processing comprises a platform support frame, wherein a first side supporting plate vertical to a side wall of the platform support frame is arranged on one side of the platform support frame, a second side supporting plate is arranged on one side of the first side supporting plate, one side of the second side supporting plate is vertically connected with the side wall of the platform support frame, a third side supporting plate is arranged on one side of the second side supporting plate, one side of the third side supporting plate is vertically connected with the side wall of the platform support frame, a plurality of sliding grooves are formed in the second side supporting plate, edge grinding ejection mechanisms are connected in the sliding grooves in a sliding mode and comprise transverse sliding frames, a second threaded rod is in threaded hole formed in the transverse central line of each transverse sliding frame in a threaded mode, a ratchet wheel is arranged at one end of each second threaded rod, a plurality of pawls are meshed with outer rings of the ratchet wheels, and a column vertical to the pawls is arranged on one side of the pawls, one end of the column piece is connected with a second gear perpendicular to the column piece, the second gear is meshed with a first gear, the first gear is fixedly connected with a first threaded rod coaxial with the first gear, a first cylindrical sleeve and a second cylindrical sleeve are respectively inserted into two ends of the first threaded rod, one side of the second cylindrical sleeve is provided with a first Y-shaped support frame perpendicular to the second cylindrical sleeve, one side of the first cylindrical sleeve is provided with a second Y-shaped support frame perpendicular to the first cylindrical sleeve, and the upper ends of the first Y-shaped support frame and the second Y-shaped support frame are respectively perpendicular to the lower surface of the second side support plate;

the top of second side fagging is equipped with the backing plate rather than paralleling, and the lower surface of backing plate is provided with a plurality of rather than the vertical fagging of looks vertically, the lower surface of vertical fagging is provided with rather than the end crossbearer of looks vertically, and the perforation that the vertical center line department of end crossbearer seted up is connected with first threaded rod.

Preferably, a left L-shaped bracket and a right L-shaped bracket which are perpendicular to the lateral sliding frame are arranged on two sides of the lateral sliding frame, and a left guide piece which is perpendicular to the side wall of the left L-shaped bracket is arranged on two sides of the left L-shaped bracket.

Preferably, the first side supporting plate and the third side supporting plate have the same structure, a first cross supporting groove is formed in the first side supporting plate, a second cross supporting groove is formed in the third side supporting plate, an inner cavity of the first cross supporting groove is in sliding connection with the left L-shaped support and the left guide piece, an inner cavity of the second cross supporting groove is in sliding connection with the right L-shaped support and the right guide piece, a first motor is installed at the upper transverse end of the left L-shaped support, the output shaft end of the first motor is connected with a second grinding head, a third motor is installed at the upper transverse end of the right L-shaped support, and the output shaft end of the third motor is connected with the first grinding head.

Preferably, the upper surface of backing plate is provided with the column body about its vertical central line symmetry, and two all be provided with the ejector pin spare on the outer wall of column body to the one end of ejector pin spare lacks the inslot rotation and is connected with the gyro wheel.

Preferably, the one end of second threaded rod is connected with the second motor, and the lower surface of second motor is provided with L shape backing plate frame to the vertical upper surface of L shape backing plate frame is connected with the bottom surface of platform support frame is perpendicular.

Preferably, the inner wall both sides of platform support frame are provided with the conveyer belt, and the upper surface of conveyer belt is provided with glass, one side of platform support frame is provided with the guide platform, and the guide platform has seted up first cross guide slot and second cross guide slot about its horizontal central line symmetry, the rectangle through-hole has been seted up about between first cross guide slot and the second cross guide slot to the guide platform, and is provided with a plurality of derivation roller in the rectangle through-hole, and connects through the third belt between a plurality of derivation roller to the pivot department of one of them derivation roller has registrated the second belt has registrated the eighth motor on the inner chamber of second belt, the below of first cross guide slot is provided with rather than corresponding second end guide frame, the below of second cross guide slot is provided with rather than corresponding first end guide frame.

Preferably, a side polishing mechanism is slidably connected in the first guide groove and comprises a connecting underframe, a first L-shaped framework and a second L-shaped framework which are perpendicular to the connecting underframe are symmetrically arranged on the connecting underframe about the transverse center line of the connecting underframe, the first L-shaped framework and the second L-shaped framework are identical in structure, cross bar guide pieces are arranged on two sides of the second L-shaped framework, the first L-shaped framework and the upper surface of the first bottom guide frame form a sliding connection, the second L-shaped framework and the upper surface of the second bottom guide frame form a sliding connection, a third threaded rod is connected in a threaded hole formed in the center line of the connecting underframe, and a fifth motor is connected to one side of the third threaded rod.

Preferably, a seventh motor is installed on the upper surface of the transverse end of the first L-shaped framework, a third grinding head is installed at the output shaft end of the seventh motor, the first L-shaped framework is connected with the second L-shaped framework through a connecting bottom frame, a sixth motor is installed on the upper surface of the transverse end of the second L-shaped framework, and a fourth grinding head is installed at the conveying end of the sixth motor.

Preferably, a strip-shaped through hole is formed in one side, close to the rectangular through hole, of the upper surface of the material guide platform, a leading-out roller is rotatably connected in the strip-shaped through hole, a first belt is sleeved at a rotating shaft end of the leading-out roller, and a fourth motor is sleeved on the inner wall of the first belt.

The invention also discloses a glass deep processing edging process, which comprises the following steps:

s1: guiding the cut glass into the space between a first grinding head, a second grinding head, a third grinding head and a fourth grinding head through a conveyer belt, and then grinding two sides of the glass through the first grinding head, the second grinding head, the third grinding head and the fourth grinding head;

s2: after polishing, the horizontal balladeur train is driven to second threaded rod counter-clockwise turning, then horizontal balladeur train can drive left L shape support and right L shape support and carry out the original way and return, the second threaded rod drives the ratchet counter-clockwise simultaneously, then the ratchet meshes the pawl and drives, then the pawl drives the second gear through the column piece, then the second gear meshes the drive with first gear, then first gear can drive first threaded rod, first threaded rod drives the vertical fagging on the crossbearer of end like this, then the column piece body on vertical fagging will the backing plate obtains driving, then the column piece body drives the gyro wheel on the member of pushing up on with glass push up on the guide platform, then glass gets into derivation roller department through drawing the roller and turns to and derives.

The invention has the beneficial effects that:

one is as follows: according to the invention, the edging ejection mechanism and the material guide platform are respectively arranged on two sides of the conveying belt, and then the edging ejection mechanism, the material guide platform and the conveying belt form a cross structure, so that the conveying belt can form double-channel feeding, and after blockage is generated in one direction of the conveying belt, the conveying belt can feed materials in the other direction of the conveying belt;

the second step is as follows: according to the invention, the ratchet wheel can be driven through the second threaded rod, then the ratchet wheel can drive the second gear, then the second gear meshes and drives the first gear, so that the first gear synchronously drives the first threaded rod with the same axis, so that the first threaded rod can drive the bottom cross frame, then the bottom cross frame drives the base plate connected with the vertical supporting plate, then the base plate synchronously drives the ejector rod piece connected with the column piece body, then the ejector rod piece can push the glass through the roller, so that the glass is alternately polished and ejected in the processing process, and the processing time can be greatly saved.

Drawings

FIG. 1 is a schematic diagram of a double-side edge grinding machine for glass deep processing;

FIG. 2 is a top view of a double-sided edge grinding machine for glass deep processing;

FIG. 3 is a bottom view of a two-sided edge grinding machine for glass deep processing;

FIG. 4 is a structural diagram of an edging and ejecting mechanism of a double-side edging machine for glass deep processing;

FIG. 5 is a partial structure view of an edge grinding and ejecting mechanism of a double-side edge grinding machine for glass deep processing;

FIG. 6 is an enlarged schematic view of a portion A of the double-side edge grinding machine for glass deep processing;

FIG. 7 is a schematic structural view of a side edge grinding mechanism and a lead-out roller of a double-side edge grinding machine and an edge grinding process for glass deep processing;

FIG. 8 is a connection diagram of a connection bottom frame, a first bottom guide frame and a second bottom guide frame of a double-side edge grinding machine for glass deep processing;

FIG. 9 is a top view of a material guiding platform of a double-side edge grinding machine for glass deep processing;

fig. 10 is a bottom view of a material guiding platform of a double-side edge grinding machine for glass deep processing.

Description of reference numerals:

1. a first side support plate; 2. an edging and ejecting mechanism; 201. a first motor; 202. a left L-shaped bracket; 203. a left guide; 204. a post body; 205. a right L-shaped bracket; 206. a base plate; 207. a first threaded rod; 208. a first Y-shaped support frame; 209. a second threaded rod; 2010. a second Y-shaped support frame; 2011. a bottom cross frame; 2012. a vertical supporting plate; 2013. a second motor; 2014. a transverse carriage; 2015. a right guide; 2016. a first grinding head; 2017. a second grinding head; 2018. a ejector pin member; 2019. a roller; 2020. a third motor; 2021. a first cylindrical sleeve; 2022. an L-shaped backing plate frame; 2023. a second cylindrical sleeve; 2024. a first gear; 2025. a second gear; 2026. a column; 2027. a pawl; 2028. a ratchet wheel; 3. a second side support plate; 4. a chute; 5. a third side supporting plate; 6. a platform support frame; 7. a conveyor belt; 8. glass; 9. a side edge polishing mechanism; 901. a first L-shaped frame; 902. a third grinding head; 903. a fourth motor; 904. a first belt; 905. connecting the underframe; 906. a second belt; 907. a fifth motor; 908. a third threaded rod; 909. a fourth grinding head; 9010. a cross bar guide; 9011. a second L-shaped frame; 9012. a sixth motor; 9013. a seventh motor; 9014. a third belt; 9015. an eighth motor; 10. a drawing-out roller; 11. a material guiding platform; 12. a delivery roller; 13. a first cross guide groove; 14. a rectangular through hole; 15. a second cross-shaped guide groove; 16. a strip-shaped through hole; 17. a first cross-shaped supporting groove; 18. a twentieth branch groove; 19. a first bottom guide; 20. a second bottom guide.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

As shown in fig. 1 to 10, the present invention provides the technical solution adopted by the present invention to achieve the above object: a bilateral edge grinding machine for glass deep processing comprises a platform support frame 6, wherein one side of the platform support frame 6 is provided with a first side supporting plate 1 vertical to the side wall of the platform support frame 6, one side of the first side supporting plate 1 is provided with a second side supporting plate 3, one side of the second side supporting plate 3 is vertically connected with the side wall of the platform support frame 6, one side of the second side supporting plate 3 is provided with a third side supporting plate 5, one side of the third side supporting plate 5 is vertically connected with the side wall of the platform support frame 6, the second side supporting plate 3 is provided with a plurality of sliding grooves 4, the sliding grooves 4 are internally and slidably connected with edge grinding ejection mechanisms 2, each edge grinding ejection mechanism 2 comprises a transverse sliding frame 2014, a threaded hole arranged at the transverse central line of the transverse sliding frame 2014 is internally and connected with a second threaded rod 209, one end of the second threaded rod 209 is provided with a ratchet 2028, and the outer ring of the ratchet 2028 is meshed with a plurality of pawls 2027, a column 2026 perpendicular to the pawl 2027 is arranged on one side of the pawl 2027, one end of the column 2026 is connected with a second gear 2025 perpendicular to the column 2026, the second gear 2025 is in meshing connection with a first gear 2024, the first gear 2024 is fixedly connected with a first threaded rod 207 coaxial with the first gear, two ends of the first threaded rod 207 are respectively inserted with a first cylindrical sleeve 2021 and a second cylindrical sleeve 2023, one side of the second cylindrical sleeve 2023 is provided with a first Y-shaped support frame 208 perpendicular to the second cylindrical sleeve 2023, one side of the first cylindrical sleeve 2021 is provided with a second Y-shaped support frame 2010 perpendicular to the first cylindrical sleeve 2021, and upper ends of the first Y-shaped support frame 208 and the second Y-shaped support frame 2010 are respectively perpendicular to the lower surface of the second side supporting plate 3;

the upper portion of the second side supporting plate 3 is provided with a base plate 206 parallel to the second side supporting plate 3, the lower surface of the base plate 206 is provided with a plurality of vertical supporting plates 2012 perpendicular to the base plate, the lower surface of the vertical supporting plates 2012 is provided with a base cross frame 2011 perpendicular to the base cross frame 2011, and a perforation arranged at the vertical central line of the base cross frame 2011 is connected with the first threaded rod 207, by the structure, when the cut glass 8 is subjected to bilateral polishing, the two sides of the conveying belt 7 are respectively provided with the edging ejection mechanism 2 and the material guide platform 11, so that the conveying belt 7 can form double-channel feeding, after one direction of the conveying belt 7 is blocked, the conveying belt 7 can feed in the other direction, when the glass 8 is polished, the second threaded rod 209 needs to be driven by the second motor 2013, then the second threaded rod 209 rotates the ratchet 2028 clockwise, and meanwhile, the second threaded rod 209 can rotate clockwise in the threaded hole on the transverse sliding frame 2014, thus, the left L-shaped support 202 and the right L-shaped support 205 on the transverse carriage 2014 can slide in the first cross groove 17 and the second cross groove 18 toward the edge of the conveyor belt 7 through the left side guide 203 and the right side guide 2015, then the first motor 201 and the third motor 2020 can respectively drive the second grinding head 2017 and the first grinding head 2016, then the second grinding head 2017 and the first grinding head 2016 are attached to the edge of the glass 8, then the second grinding head 2017 and the first grinding head 2016 can grind the glass 8, meanwhile the fifth motor 907 can drive the third threaded rod 908, then the third threaded rod 908 can be driven during rotation, then the connecting chassis 905 is connected to drive the first L-shaped frame 901 and the second L-shaped frame 9011 to drive the third grinding head 902 and the fourth grinding head 909, then the third grinding head 902 and the fourth grinding head 909 can grind the other edge of the glass 8, after the glass 8 is polished, the second threaded rod 209 is driven anticlockwise through anticlockwise rotation of the second motor 2013, then the second threaded rod 209 drives the ratchet 2028, then the ratchet 2028 drives the meshed pawl 2027, then the pawl 2027 drives the column 2026, then the column 2026 drives the second gear 2025, then the second gear 2025 drives the meshed first gear 2024, so that the bottom cross frame 2011 can eject the ejector rod 2018 while the first grinding head 2016 and the second grinding head 2017 shrink, and then the ejector rod 2018 can eject the processed glass 8 into the material guide platform 11 to be led out.

The two sides of the transverse sliding frame 2014 are provided with a left L-shaped support 202 and a right L-shaped support 205 which are perpendicular to the transverse sliding frame 2014, the two sides of the left L-shaped support 202 are provided with a left guide 203 which is perpendicular to the side wall of the left L-shaped support, and through the structure, when the glass 8 is ground through the second grinding head 2017 and the first grinding head 2016, the second grinding head 2017 and the first grinding head 2016 slide in the first cross-shaped groove 17 and the second cross-shaped groove 18 through the left L-shaped support 202 and the right L-shaped support 205, so that the glass 8 can be ground through the second grinding head 2017 and the first grinding head 2016.

The first side supporting plate 1 and the third side supporting plate 5 have the same structure, the first side supporting plate 1 is provided with a first cross supporting groove 17, the third side supporting plate 5 is provided with a second cross supporting groove 18, the inner cavity of the first cross supporting groove 17 is in sliding connection with the left L-shaped bracket 202 and the left guide member 203, the inner cavity of the second cross supporting groove 18 is in sliding connection with the right L-shaped bracket 205 and the right guide member 2015, the upper transverse end of the left L-shaped bracket 202 is provided with the first motor 201, the output shaft end of the first motor 201 is connected with the second grinding head 2017, the upper transverse end of the right L-shaped bracket 205 is provided with the third motor 2020, the output shaft end of the third motor 2020 is connected with the first grinding head 2016, through the structure, when the glass 8 needs to be ground, the left L-shaped bracket 202 and the right L-shaped bracket 205 are driven through the transverse sliding frame 2014, then the left L-shaped bracket 202 and the right L-shaped bracket 205 can drive the first grinding head 2016 and the second grinding head 2017, then the glass 8 is ground by the first grinding head 2016 and the second grinding head 2017.

The upper surface of the backing plate 206 is symmetrically provided with column bodies 204 about a vertical center line thereof, and two column bodies 204 are provided with ejector rod members 2018 on the outer wall thereof, and rollers 2019 are rotatably connected to one end of the ejector rod members 2018 in the groove, so that when the glass 8 after processing is required to be ejected, the first gear 2024 is meshed and driven by the second gear 2025, then the first gear 2024 drives the first threaded rod 207, then the first threaded rod 207 rotates in a threaded hole on the bottom cross frame 2011, then the bottom cross frame 2011 can drive the vertical supporting plate 2012, then the vertical supporting plate 2012 drives the backing plate 206, then the backing plate 206 can push the ejector rod members 2018, and then the rollers 2019 at the end of the ejector rod members 2018 can eject the glass 8 after polishing.

One end of the second threaded rod 209 is connected with a second motor 2013, the lower surface of the second motor 2013 is provided with an L-shaped backing plate frame 2022, the vertical upper surface of the L-shaped backing plate frame 2022 is vertically connected with the bottom surface of the platform support frame 6, by the structure, when the side edge of the glass 8 needs to be polished, the second motor 2013 is started, then the second threaded rod 209 is driven by the second motor 2013, then the ratchet wheel 2028 can be driven by the second threaded rod 209, then the ratchet wheel 2028 can drive the second gear 2025, then the first gear 2024 is meshed and driven by the second gear 2025, so that the first threaded rod 207 with the same axis is synchronously driven by the first threaded rod 207, so that the bottom cross frame 2011 can drive the bottom cross frame 2011 drives the backing plate 206 connected with the vertical supporting plate 2012, then the top rod member 2018 connected with the column member body 204 is synchronously driven by the backing plate 206, the ejector 2018 can then push the glass 8 through the roller 2019.

The conveying belt 7 is arranged on two sides of the inner wall of the platform supporting frame 6, the glass 8 is arranged on the upper surface of the conveying belt 7, the material guiding platform 11 is arranged on one side of the platform supporting frame 6, the material guiding platform 11 is symmetrically provided with a first cross-shaped guide groove 13 and a second cross-shaped guide groove 15 about the transverse central line of the material guiding platform 11, a rectangular through hole 14 is formed between the first cross-shaped guide groove 13 and the second cross-shaped guide groove 15 about the material guiding platform 11, a plurality of guide rollers 12 are arranged in the rectangular through hole 14, the guide rollers 12 are connected through a third belt 9014, a second belt 906 is sleeved at the rotating shaft of one of the guide rollers 12, an eighth motor 9015 is sleeved on the inner cavity of the second belt 906, a second bottom guide frame 20 corresponding to the first cross-shaped guide groove 13 is arranged below the first cross-shaped guide groove 13, and a first bottom guide frame 19 corresponding to the second bottom guide groove 15 is arranged below the second cross-shaped guide groove, make glass 8 after processing by ejector pin spare 2018 back on pushing up guide platform 11 through above-mentioned structure, then fourth motor 903 can drive first belt 904, first belt 904 obtains driving drawing roller 10 after that, then drawing roller 10 can drive glass 8 to the right side, glass 8 enters into the region of rectangle through-hole 14 after that, then start eighth motor 9015, eighth motor 9015 drives second belt 906 after that, then second belt 906 drives derivation roller 12, derivation roller 12 drives remaining derivation roller 12 through third belt 9014 after that, then derivation roller 12 can be derived glass 8.

The first guide groove 13 is connected with a side edge grinding mechanism 9 in a sliding manner, the side edge grinding mechanism 9 comprises a connecting underframe 905, the connecting underframe 905 is symmetrically provided with a first L-shaped framework 901 and a second L-shaped framework 9011 which are perpendicular to the connecting underframe about the transverse center line of the connecting underframe, the first L-shaped framework 901 and the second L-shaped framework 9011 are identical in structure, two sides of the second L-shaped framework 9011 are provided with transverse bar guide members 9010, the first L-shaped framework 901 and the upper surface of the first bottom guide frame 19 form a sliding connection, the second L-shaped framework 9011 and the upper surface of the second bottom guide frame 20 form a sliding connection, a threaded hole formed in the center line of the connecting underframe 905 is connected with a third threaded rod 908 in a threaded manner, one side of the third threaded rod 908 is connected with a fifth motor 907, and when the ejection edge grinding mechanism 2 is used for fixedly grinding the left side of the glass 8, the fifth motor 907 is started, then the fifth motor 907 drives the third threaded rod 908, then the third threaded rod 908 drives the connecting bottom frame 905 which is in threaded connection, then the first L-shaped frame 901 and the second L-shaped frame 9011 on the connecting bottom frame 905 move on the first bottom guide frame 19 and the second bottom guide frame 20 through the transverse bar guide 9010, and then the first L-shaped frame 901 and the second L-shaped frame 9011 enable the third grinding head 902 and the fourth grinding head 909 to be close to the right side of the glass 8 to be machined and ground.

The upper surface of the transverse end of the first L-shaped frame 901 is provided with a seventh motor 9013, the output shaft end of the seventh motor 9013 is provided with a third grinding head 902, the first L-shaped frame 901 is connected with a second L-shaped frame 9011 through a connecting underframe 905, the upper surface of the transverse end of the second L-shaped frame 9011 is provided with a sixth motor 9012, the delivery end of the sixth motor 9012 is provided with a fourth grinding head 909, the first L-shaped frame 901 and the second L-shaped frame 9011 drive the third grinding head 902 and the fourth grinding head 909 synchronously through the structure, and then the third grinding head 902 and the fourth grinding head 909 are driven to the right side close to the glass 8 for processing and grinding.

Strip through-hole 16 has been seted up to one side that the upper surface of guide platform 11 is close to rectangle through-hole 14, and the rotation in strip through-hole 16 is connected with and draws forth roller 10, the pivot end cover of drawing forth roller 10 has first belt 904, and the cover has fourth motor 903 on the inner wall of first belt 904, makes after glass 8 processing is finished through above-mentioned structure, then glass 8 draws forth through drawing forth roller 10, draws forth roller 10 after that and is sent into on the roller 12 of deriving, then derives the roller 12 and will process glass 8 and derive.

The invention also discloses an edging process for glass deep processing, which comprises the following steps:

s1: the cut glass 8 is guided into the space between the first grinding head 2016, the second grinding head 2017, the third grinding head 902 and the fourth grinding head 909 through the conveyer belt 7, then two sides of the glass 8 are ground through the first grinding head 2016, the second grinding head 2017, the third grinding head 902 and the fourth grinding head 909, through the process, two sides of the glass 8 can be ground through the first grinding head 2016, the second grinding head 2017, the third grinding head 902 and the fourth grinding head 909, and meanwhile, when the first grinding head 2016 and the second grinding head 2017 are convenient to withdraw from the left side of the glass 8, the processed glass 8 can be ejected out through the ejector rod member 2018, so that the processing and the leading-out of the glass 8 can be synchronously operated.

S2: after grinding, the second threaded rod 209 rotates counterclockwise to drive the transverse carriage 2014, then the transverse carriage 2014 can drive the left L-shaped bracket 202 and the right L-shaped bracket 205 to return to the original path, meanwhile, the second threaded rod 209 drives the ratchet 2028 counterclockwise, then the ratchet 2028 drives the pawl 2027 in a meshing manner, then the pawl 2027 drives the second gear 2025 through the column 2026, then the second gear 2025 drives the first gear 2024 in a meshing manner, then the first gear 2024 can drive the first threaded rod 207, so that the first threaded rod 207 drives the vertical supporting plate 2012 on the bottom transverse frame 2011, then the vertical supporting plate drives the column body 204 on the backing plate 206, then the column body 204 drives the roller 2019 on the ejector 2018 to eject the glass 8 onto the material guide platform 11, and then the glass 8 enters the guide-out roller 12 through the lead-out roller 10 to be guided out in a steering manner, through the process, the ejector rod pieces 2018 can be synchronously ejected after the glass 8 is machined and polished, so that the glass 8 after machining can be synchronously led out by the ejector rod pieces 2018.

The working principle is as follows: when the bilateral edge grinding machine for glass deep processing is used, when the glass 8 ready to be cut off is subjected to bilateral grinding, the second motor 2013 is started, then the second motor 2013 drives the second threaded rod 209, then the second threaded rod 209 rotates the ratchet 2028 clockwise, meanwhile, the second threaded rod 209 can rotate clockwise in the threaded hole on the transverse sliding frame 2014, so that the left L-shaped support 202 and the right L-shaped support 205 on the transverse sliding frame 2014 can slide towards the edge of the conveying belt 7 in the first cross-shaped groove 17 and the second cross-shaped groove 18 through the left guide 203 and the right guide 2015, then the first motor 201 and the third motor 2020 can respectively drive the second grinding head 2017 and the first grinding head 2016, then the second grinding head 2017 and the first grinding head 2016 are attached to the edge of the glass 8, then the second grinding head 2017 and the first grinding head 2016 can grind the glass 8, meanwhile, the fifth motor 907 can drive the third threaded rod 908, then the third threaded rod 908 is driven by the connecting underframe 905 in the rotating process, then the connecting underframe 905 drives the first L-shaped frame 901 and the second L-shaped frame 9011 to drive the third grinding head 902 and the fourth grinding head 909, then the third grinding head 902 and the fourth grinding head 909 grind the other side of the glass 8, after the glass 8 is ground, the second motor 2013 rotates anticlockwise to drive the second threaded rod 209, then the second threaded rod 209 drives the ratchet 2028, then the ratchet 2028 drives the engaged pawl 2027, then the pawl 2027 drives the column 2026, then the column 2026 drives the second gear 2025, then the second gear 2025 drives the engaged first gear 2024, so that the first grinding head 2016 and the second grinding head 2017 are contracted under the belt of the second threaded rod 209, meanwhile, a second gear 2025 can be driven by a second threaded rod 209, then the first gear 2024 is driven by the second gear 2025, then the first threaded rod 207 is driven by the first gear 2024, then the bottom cross frame 2011 is driven by the first threaded rod 207, then the top rod member 2018 can be ejected by the bottom cross frame 2011, then the processed glass 8 can be ejected into the material guide platform 11 by the top rod member 2018, then the fourth motor 903 is started, then the fourth motor 903 can drive the first belt 904, then the first belt 904 drives the lead-out roller 10, then the lead-out roller 10 can drive the glass 8 to the right side, then the glass 8 enters the area of the rectangular through hole 14, then the eighth motor 9015 is started, then the eighth motor 9015 drives the second belt 906, and then the lead-out roller 12 is driven by the second belt 906, subsequently, the delivery rollers 12 drive the remaining delivery rollers 12 by the third belt 9014, and the delivery rollers 12 can deliver the glass 8.

The above-described embodiments are merely illustrative of one or more embodiments of the present invention, and the description is specific and detailed, but not intended to limit the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a bilateral edging machine of glass deep-processing usefulness which characterized in that: comprises a platform supporting frame (6), one side of the platform supporting frame (6) is provided with a first side supporting plate (1) which is vertical to the side wall of the platform supporting frame (6), one side of the first side supporting plate (1) is provided with a second side supporting plate (3), one side of the second side supporting plate (3) is vertically connected with the side wall of the platform supporting frame (6), one side of the second side supporting plate (3) is provided with a third side supporting plate (5), one side of the third side supporting plate (5) is vertically connected with the side wall of the platform supporting frame (6), the second side supporting plate (3) is provided with a plurality of sliding grooves (4), the sliding grooves (4) are internally and slidably connected with an edging ejection mechanism (2), the edging ejection mechanism (2) comprises a transverse sliding frame (2014), a threaded hole which is arranged at the transverse central line of the transverse sliding frame (2014) is internally connected with a second threaded rod (209), one end of the second threaded rod (209) is provided with a ratchet wheel (2028), and the outer ring of the ratchet wheel (2028) is engaged with a plurality of pawls (2027), and one side of the pawls (2027) is provided with a column part (2026) which is vertical to the pawls, and one end of the column (2026) is connected with a second gear (2025) vertical to the column, and the second gear (2025) is engaged with a first gear (2024), the first gear (2024) is fixedly connected with a first threaded rod (207) coaxial with the first gear, and a first cylindrical sleeve (2021) and a second cylindrical sleeve (2023) are respectively inserted into the two ends of the first threaded rod (207), one side of the second cylindrical sleeve (2023) is provided with a first Y-shaped supporting frame (208) vertical to the second cylindrical sleeve, one side of the first cylindrical sleeve (2021) is provided with a second Y-shaped supporting frame (2010) vertical to the first cylindrical sleeve, the upper ends of the first Y-shaped support frame (208) and the second Y-shaped support frame (2010) are respectively and vertically connected with the lower surface of the second side supporting plate (3);

the top of second side fagging (3) is equipped with backing plate (206) rather than paralleling, and the lower surface of backing plate (206) is provided with a plurality of rather than vertical fagging (2012) of looks vertically, the lower surface of vertical fagging (2012) is provided with rather than end crossbearer (2011) of looks vertically, and the perforation that the vertical center line department of end crossbearer (2011) was seted up is connected with first threaded rod (207).

2. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: the two sides of the transverse sliding frame (2014) are provided with a left L-shaped support (202) and a right L-shaped support (205) which are perpendicular to the transverse sliding frame, and the two sides of the left L-shaped support (202) are provided with a left guide piece (203) which is perpendicular to the side wall of the left L-shaped support.

3. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: the structure of first backup pad (1) and third backup pad (5) is the same, and has seted up first cross supporting groove (17) on first backup pad (1), second cross supporting groove (18) have been seted up on third backup pad (5), the inner chamber and left L shape support (202) and left side guide piece (203) of first cross supporting groove (17) form sliding connection, the inner chamber and right L shape support (205) and right side guide piece (2015) of second cross supporting groove (18) form sliding connection, first motor (201) are installed to the last horizontal end of left side L shape support (202), and the output axle head of first motor (201) is connected with second bistrique (2017), third motor (2020) are installed to the last horizontal end of right L shape support (205), and the output axle head of third motor (2020) is connected with first bistrique (2016).

4. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: the upper surface of the base plate (206) is symmetrically provided with column bodies (204) about the vertical center line of the base plate, ejector rod pieces (2018) are arranged on the outer walls of the two column bodies (204), and rollers (2019) are rotatably connected to one end of each ejector rod piece (2018) in a groove.

5. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: one end of the second threaded rod (209) is connected with a second motor (2013), the lower surface of the second motor (2013) is provided with an L-shaped cushion plate frame (2022), and the vertical upper surface of the L-shaped cushion plate frame (2022) is perpendicularly connected with the bottom surface of the platform supporting frame (6).

6. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: the conveying belts (7) are arranged on two sides of the inner wall of the platform supporting frame (6), glass (8) is arranged on the upper surface of each conveying belt (7), a material guiding platform (11) is arranged on one side of the platform supporting frame (6), a first cross-shaped guide groove (13) and a second cross-shaped guide groove (15) are symmetrically formed in the material guiding platform (11) relative to the transverse center line of the material guiding platform, a rectangular through hole (14) is formed between the first cross-shaped guide groove (13) and the second cross-shaped guide groove (15) in the material guiding platform (11), a plurality of guide rollers (12) are arranged in the rectangular through hole (14), the guide rollers (12) are connected through a third belt (9014), a second belt (906) is sleeved at the rotating shaft of one of the guide rollers (12), an eighth motor (9015) is sleeved on the inner cavity of the second belt (906), and a second bottom guide frame (20) corresponding to the first cross-shaped guide groove (13) is arranged below the guide rollers, a first bottom guide frame (19) corresponding to the second cross-shaped guide groove is arranged below the second cross-shaped guide groove (15).

7. The double-edge grinding machine for glass deep processing according to claim 6, wherein: a side edge polishing mechanism (9) is connected in the first cross guide groove (13) in a sliding way, the side edge grinding mechanism (9) comprises a connecting underframe (905), a first L-shaped framework (901) and a second L-shaped framework (9011) which are vertical to the connecting underframe (905) are symmetrically arranged on the connecting underframe (905) relative to the transverse center line of the connecting underframe, the first L-shaped framework (901) and the second L-shaped framework (9011) have the same structure, and both sides of the second L-shaped frame (9011) are provided with transverse bar guide members (9010), the first L-shaped frame (901) and the upper surface of the first bottom guide frame (19) form sliding connection, the second L-shaped framework (9011) is in sliding connection with the upper surface of the second bottom guide frame (20), a threaded hole formed in the center line of the connecting bottom frame (905) is connected with a third threaded rod (908) in a threaded manner, and a fifth motor (907) is connected to one side of the third threaded rod (908).

8. The double-edge grinding machine for glass deep processing according to claim 1, characterized in that: the upper surface of the transverse end of the first L-shaped framework (901) is provided with a seventh motor (9013), the output shaft end of the seventh motor (9013) is provided with a third grinding head (902), the first L-shaped framework (901) is connected with a second L-shaped framework (9011) through a connecting underframe (905), the upper surface of the transverse end of the second L-shaped framework (9011) is provided with a sixth motor (9012), and the conveying end of the sixth motor (9012) is provided with a fourth grinding head (909).

9. The double-edge grinding machine for glass deep processing according to claim 6, wherein: the upper surface of the material guide platform (11) is close to one side of the rectangular through hole (14) and is provided with a strip-shaped through hole (16), the strip-shaped through hole (16) is connected with a leading-out roller (10) in a rotating mode, a first belt (904) is sleeved at the rotating shaft end of the leading-out roller (10), and a fourth motor (903) is sleeved on the inner wall of the first belt (904).

10. The edging process for glass deep processing according to claim 1, comprising a bilateral edging machine for glass deep processing according to any one of claims 1 to 9, characterized by comprising the following steps:

s1: guiding the cut glass (8) into the space between a first grinding head (2016), a second grinding head (2017), a third grinding head (902) and a fourth grinding head (909) through a conveyer belt (7), and then grinding two sides of the glass (8) through the first grinding head (2016), the second grinding head (2017), the third grinding head (902) and the fourth grinding head (909);

s2: after grinding, the second threaded rod (209) rotates anticlockwise to drive the transverse carriage (2014), then the transverse carriage (2014) can drive the left L-shaped bracket (202) and the right L-shaped bracket (205) to return to the original path, meanwhile, the second threaded rod (209) drives the ratchet wheel (2028) anticlockwise, then the ratchet wheel (2028) meshes the pawl (2027) to drive, then the pawl (2027) drives the second gear (2025) through the column member (2026), then the second gear (2025) meshes the first gear (2024) to drive, then the first gear (2024) can drive the first threaded rod (207), so that the first threaded rod (207) drives the vertical support plate (2012) on the bottom transverse frame (2011), then the vertical support plate (2012) drives the column member body (204) on the backing plate (206), then the column member body (204) drives the roller (9) on the top rod member (2018) to push the glass (2018) into the material guide platform (20111), then the glass (8) enters a lead-out roller (12) through a lead-out roller (10) to be diverted and led out.