CN111015426B

CN111015426B - Glass edging control method

Info

Publication number: CN111015426B
Application number: CN201911260412.8A
Authority: CN
Inventors: 朱世新; 徐雪云
Original assignee: Chizhou Hailin Clothing Co ltd
Current assignee: Chizhou Hailin Clothing Co ltd
Priority date: 2018-07-27
Filing date: 2018-07-27
Publication date: 2020-11-10
Anticipated expiration: 2038-07-27
Also published as: CN111015426A; CN108942493A; CN108942493B

Abstract

The invention provides a glass edging control method which is realized based on an edging device, wherein the edging device comprises a support frame, a conveying belt, a limiting mechanism, a glass fixing mechanism and a grinding mechanism, the conveying belt is installed inside the support frame, the limiting mechanism is fixedly installed on the side face of the support frame, the glass fixing mechanism is installed above the support frame, and the grinding mechanism is installed on the support frame. Through stop gear adjustment glass's position, and then prevented to lead to the not good condition of effect of polishing because the position of glass piece is inaccurate, polish to glass's side through the file round trip movement in the grinding machanism, the mode of polishing has been avoided polishing in-process glass sediment to the influence of polishing to and can carry out the chamfer to glass through the angle of adjustment file, make the edging chamfer can go on same equipment.

Description

Glass edging control method

Technical Field

The application is a divisional application of a Chinese patent application with the application number of 201810840532.4, which is filed on 7-27.2018 and the name of which is a glass edge grinding device.

Background

The glass is prepared by taking quartz sand, soda ash, feldspar, limestone and the like as raw materials, mixing, melting at high temperature, homogenizing, processing and forming, and annealing, wherein the glass is widely used in the fields of buildings, daily use, medical treatment, chemistry, electronics, instruments, nuclear engineering and the like.

Publication No. CN105252370A discloses a glass edging device, this device polishes glass's side through the toper head of polishing, and the effect of polishing is reached through the rotation of toper head of polishing in the in-process of polishing, and the glass piece that this kind of polishing method was polished down can be in disorder flown and spatter, and then influences the quality of polishing.

Publication No. CN105171558A discloses a polishing mechanism for polishing glass corners, which performs polishing by a polishing wheel, but cannot perform chamfering treatment during the polishing process.

Disclosure of Invention

The invention aims to provide a glass edge grinding device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a glass edging device, includes support frame, conveyer belt, stop gear, glass fixed establishment and grinding machanism, support frame one end is equipped with the baffle, the conveyer belt is installed inside the support frame, stop gear fixed mounting is in the side of support frame, glass fixed establishment installs the top at the support frame, wherein:

grinding machanism includes file, go-between, ejector pin, spring I, cam, motor and spring II, the one end movable mounting of file passes through go-between movable mounting on the support frame, the other end on the support frame, ejector pin movable mounting is equipped with a spring I between ejector pin and the go-between on the go-between, motor fixed mounting is on the support frame, and a cam is overlapped admittedly to its power take off end, wherein the end face contact of cam and file, II covers of spring establish on the file and with file and support frame fixed connection.

Preferably, be equipped with semicircle ring and round hole on the side of support frame, be equipped with a pair of bracing piece on the go-between, bracing piece on the go-between runs through the semicircle ring, and wherein the part that runs through the semicircle ring is equipped with a hexagon nut respectively, the ejector pin runs through the go-between and extends to in the round hole, the both ends of spring I respectively with the side fixed connection of ejector pin and go-between, file clearance fit is on the go-between.

Preferably, the support frame is provided with three round holes, wherein the included angle between the connecting line of the central point of the round hole in the middle and the central point of the semicircular ring and the connecting line of the central point of the round hole and the central point of the semicircular ring on the upper side and the lower side is forty-five degrees respectively.

Preferably, the glass fixing mechanism comprises a pneumatic sliding rail, a pneumatic sliding block, a cylinder, a connecting plate, a rotary cylinder and a sucker, the pneumatic sliding rail is mounted above the supporting frame, the pneumatic sliding block is movably mounted on the pneumatic sliding rail, the connecting plate is movably mounted on the pneumatic sliding block through the cylinder, one end of the rotary cylinder is fixedly mounted on the connecting plate, and the power output end of the rotary cylinder is fixedly mounted with the sucker.

Preferably, stop gear includes backup pad, spring III and roller, the backup pad passes through III movable mounting of a plurality of springs on the support frame, and a plurality of the roller is installed in the backup pad through the bearing respectively.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the position of the glass is adjusted through the limiting mechanism, so that the condition that the polishing effect is poor due to inaccurate position of the glass block is prevented.

2. According to the invention, the file in the polishing mechanism moves back and forth to polish the side edge of the glass, so that the polished glass slag immediately falls out of the device, the influence of the glass slag on polishing in the polishing process is avoided in a back and forth polishing mode, and the glass can be chamfered by adjusting the angle of the file, so that edge polishing and chamfering can be performed on the same equipment.

Drawings

FIG. 1 is a three-dimensional schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 4 is a three-dimensional schematic view of a portion of the structure of the polishing mechanism of the present invention

Fig. 5 is a front view of a portion of the structure of the support of the present invention.

In the figure: the device comprises a support frame 1, a conveying belt 2, a limiting mechanism 3, a glass fixing mechanism 4, a polishing mechanism 5, a baffle 11, a 111 semicircular ring, a 112 circular hole, a support plate 31, a spring III 32, a roller 33, a pneumatic sliding rail 41, a pneumatic sliding block 42, a cylinder 43, a connecting plate 44, a rotating cylinder 45, a suction cup 46, a file 51, a connecting ring 52, a push rod 53, a spring I54, a cam 55, a motor 56, a spring II 57 and a support rod 521.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

referring to fig. 1 to 5, the present invention provides a technical solution:

the utility model provides a glass edging device, includes support frame 1, conveyer belt 2, stop gear 3, glass fixed establishment 4 and grinding machanism 5, wherein:

one end of the support frame 1 is provided with a baffle 11, the side edge of the support frame 1 is provided with a semicircular ring 111 and three circular holes 112, wherein the number of the circular holes 112 is three, the included angle between the connecting line of the central point of the circular hole 112 positioned in the middle and the central point of the semicircular ring 111 and the connecting line of the central point of the circular hole 112 positioned at the upper side and the central point of the semicircular ring 111 positioned at the lower side is forty-five degrees respectively, further, when the ejector rod 53 is matched in the upper circular hole 112 and the lower circular hole 112, the included angle between the relative glass edges of the file 51 is forty-five degrees, when the ejector rod 53 is matched in the circular hole 112 positioned at the middle position, the relative glass edges of the file.

Stop gear 3 includes backup pad 31, spring III 32 and roller 33, and backup pad 31 is on support frame 1 through III 32 movable mounting of a plurality of springs, and wherein the both ends of III 32 of a plurality of springs respectively with backup pad 31 and support frame 1 fixed connection to and gapped and then can not cause the friction between backup pad 31 and the conveyer belt 2, a plurality of rollers 33 are installed on backup pad 31 through the bearing respectively.

The glass fixing mechanism 4 comprises a pneumatic slide rail 41, a pneumatic slide block 42, a cylinder 43, a connecting plate 44, a rotary cylinder 45 and a sucker 46, wherein the pneumatic slide rail 41 is fixedly installed above the support frame 1 through a bolt, the pneumatic slide rail 41 is externally connected with an air pressure source, the pneumatic slide block 42 is movably installed on the pneumatic slide rail 41, the pneumatic slide block 42 can move along the pneumatic slide rail 41 when the air pressure source leads positive air pressure and negative air pressure to the pneumatic slide rail 41, one end of the cylinder 43 is fixedly installed on the pneumatic slide block 42 through a bolt, the other end of the cylinder 43 is welded with the connecting plate 44, the connecting plate 44 is movably installed on the pneumatic slide block 42 through the cylinder 43, one end of the rotary cylinder 45 is fixedly installed on the connecting plate 44 through a bolt, the power output end of the rotary cylinder is fixedly installed with the sucker 46.

The grinding mechanism 5 comprises a file 51, a connecting ring 52, a top rod 53, a spring I54, a cam 55, a motor 56 and a spring II 57, wherein a pair of support rods 521 are arranged on the connecting ring 52, the support rods 521 on the connecting ring 52 penetrate through the semicircular ring 111, and hexagonal nuts are respectively arranged on the parts penetrating through the semicircular ring 111, the top rod 53 is movably arranged on the connecting ring 52, the top rod 53 penetrates through the connecting ring 52 and extends into the circular hole 112, the spring I54 is sleeved on the top rod 53, two ends of the spring I54 are respectively fixedly connected with the top rod 53 and the side edge of the connecting ring 52, the top rod 53 is pulled to be pressed against the circular hole 112 under the elastic force action of the spring I54, one end of the file 51 is movably arranged on the support frame 1, the other end of the file 51 is movably matched with the connecting ring 52, wherein the file 51 is arranged at one end of the connecting ring 52 and is matched with the connecting ring, the motor 56 is fixedly arranged on the support frame 1 through bolts, the power output end of the motor is fixedly sleeved with a cam 55, the cam 55 is in contact with the end face of the file 51, and the spring II 57 is sleeved on the file 51 and fixedly connected with the file 51 and the support frame 1.

The working principle of the invention is as follows: the cut glass is placed on the conveying belt 2, the glass moves towards the direction close to the grinding mechanism 5 under the action of the conveying belt 2, when one side edge of the glass contacts with the roller 33, the glass pushes the roller 33 outwards, at the moment, the roller 33 is always contacted with one side edge of the glass under the action of the spring III 32, at the moment, the other side edge of the glass is tightly attached to the baffle plate 11, and further the position adjusting effect is achieved, when the glass moves to be right below the suction disc 46, the air cylinder 43 pushes the suction disc 46 to contact with the glass, then the suction disc 46 tightly adsorbs the glass, at the moment, the air cylinder 43 drives the glass to move to be flush with the file 51, then the pneumatic slide block 42 moves along the pneumatic slide rail 41, further the pneumatic slide block 42 drives the glass to be contacted with the file 51, at the moment, the motor 56 starts to rotate to drive the cam 55 to synchronously rotate with the file, at, and provides power for the return stroke of the file 51 under the action of the spring II 57, and then the file 51 is always contacted with the cam 55, the file 51 realizes the linear reciprocating motion in the process of high-speed rotation of the cam 55, and then the side edge of the glass is polished, because the file 51 moves back and forth during polishing, the process of polishing can not be influenced by the device that the glass residues polished directly fall off, then the rotary cylinder 45 drives the suction disc 46 to rotate for ninety degrees when polishing other side edges, and then the side edge of the glass which is not polished is contacted with the file 51 for polishing, if the glass needs to be chamfered after polishing the side edge, the ejector rod 53 arranged on the connecting ring 52 is pulled out from the round hole 112, and the connecting ring 52 is rotated when the hexagonal nut arranged on the supporting rod 521 is loosened, and the ejector rod 53 can extend into the round hole 112 arranged on the upper side, at this time, the included angle between the glass side edges of the file 51 is forty-five degrees, then it is fixed with hexagon nut on bracing piece 521, and then repeat above-mentioned edging work and can accomplish the chamfer of half on the glass side, rotatory go-between 52 can when ejector pin 53 can extend to the round hole 112 that is located the downside when carrying out the lower half chamfer, the contained angle between file 51 glass side at this moment is forty-five degrees, can accomplish the chamfer to the lower half, this device is polishing the side and is divided into two stations with the chamfer, and then this device also can be suitable for at the glass that certain special processing does not need the chamfer.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a glass edging control method, control method realizes based on an edging device, the edging device includes support frame (1), conveyer belt (2), stop gear (3), glass fixed establishment (4) and grinding machanism (5), support frame (1) one end is equipped with baffle (11), conveyer belt (2) are installed inside support frame (1), stop gear (3) fixed mounting is in the side of support frame (1), glass fixed establishment (4) are installed in the top of support frame (1), its characterized in that:

the polishing mechanism (5) comprises a file (51), a connecting ring (52), a push rod (53), a spring I (54), a cam (55), a motor (56) and a spring II (57), one end of the file (51) is movably mounted on the support frame (1), the other end of the file is movably mounted on the support frame (1) through the connecting ring (52), the push rod (53) is movably mounted on the connecting ring (52), the spring I (54) is arranged between the push rod (53) and the connecting ring (52), the motor (56) is fixedly mounted on the support frame (1), the power output end of the motor is fixedly sleeved with the cam (55), the cam (55) is in contact with the end face of the file (51), and the spring II (57) is sleeved on the file (51) and is fixedly connected with the file (51) and the support frame (1);

the side edge of the support frame (1) is provided with a semicircular ring (111) and a circular hole (112), the connecting ring (52) is provided with a pair of support rods (521), the support rods (521) on the connecting ring (52) penetrate through the semicircular ring (111), hexagonal nuts are respectively arranged on the parts penetrating through the semicircular ring (111), the ejector rod (53) penetrates through the connecting ring (52) and extends into the circular hole (112), two ends of the spring I (54) are respectively fixedly connected with the ejector rod (53) and the side edge of the connecting ring (52), and the file (51) is movably matched on the connecting ring (52);

the limiting mechanism (3) comprises a supporting plate (31), springs III (32) and rollers (33), the supporting plate (31) is movably mounted on the supporting frame (1) through the springs III (32), and the rollers (33) are mounted on the supporting plate (31) through bearings respectively;

the control method comprises the following steps: (1) the glass after cutting is placed on the conveying belt (2), the glass moves towards the direction close to the grinding mechanism (5) under the action of the conveying belt (2), when one side edge of the glass contacts the roller (33), the roller (33) is ejected outwards by the glass, at the moment, the roller (33) is always contacted with one side edge of the glass under the action of the spring III (32), at the moment, the other side edge of the glass is tightly attached to the baffle (11), and the position adjusting effect is achieved; (2) when the glass moves to the position right below the sucking disc (46), the air cylinder (43) pushes the sucking disc (46) to contact with the glass, then the glass is tightly adsorbed by the sucking disc (46), at the moment, the air cylinder (43) drives the glass to move to be flush with the file (51), then the pneumatic sliding block (42) moves along the pneumatic sliding rail (41), further the pneumatic sliding block (42) drives the glass to contact with the file (51), at the moment, the motor (56) starts to rotate to drive the cam (55) to synchronously rotate with the cam, at the moment, the cam (55) pushes the file (51) to do linear motion, power is provided for the return stroke of the file (51) under the action of the spring II (57), further the file (51) is always contacted with the cam (55), the file (51) realizes linear reciprocating motion in the high-speed rotation process of the cam (55), further the side edge of the glass is polished, and the file (51) moves back and forth when being polished, the ground glass slag directly falls out of the device without influencing the grinding process; (3) then when other sides are polished, the rotary cylinder (45) drives the sucker (46) to rotate ninety degrees, and then the side of the glass which is not polished is contacted with the file (51) for polishing, if the glass needs chamfering after the side is polished, the ejector rod (53) arranged on the connecting ring (52) is pulled out from the round hole (112) and the hexagon nut arranged on the supporting rod (521) is loosened, then the connecting ring (52) is rotated until the ejector rod (53) can extend into the round hole (112) positioned on the upper side, at the moment, the included angle between the file (51) and the glass side is forty-five degrees, then the hexagon nut arranged on the supporting rod (521) is fixed, and then the above edging work is repeated to complete the chamfering of the half part of the glass side, when the lower half part is chamfered, the rotary connecting ring (52) can be rotated when the ejector rod (53) can extend into the round hole (112) positioned on the lower side, at the moment, the included angle between the file (51) and the side edge of the glass is forty-five degrees, and the lower half part can be chamfered.

2. The glass edging control method according to claim 1, characterized in that: glass fixed establishment (4) include pneumatic slide rail (41), pneumatic slider (42), cylinder (43), connecting plate (44), revolving cylinder (45) and sucking disc (46), the top at support frame (1) is installed in pneumatic slide rail (41), pneumatic slider (42) movable mounting is on pneumatic slide rail (41), connecting plate (44) are through cylinder (43) movable mounting on pneumatic slider (42), the one end of revolving cylinder (45) is fixed ann on connecting plate (44), a power take off end fixed mounting sucking disc (46) thereof.

3. The glass edging control method according to claim 1, characterized in that: three round holes (112) are arranged on the support frame (1).

4. A glass edging control method according to claim 3, characterized in that: wherein, the included angles between the connecting line of the central point of the round hole (112) in the middle and the central point of the semicircular ring (111) and the connecting line of the central point of the round hole (112) on the upper side and the lower side and the central point of the semicircular ring (111) are respectively forty-five degrees.