CN118893553B

CN118893553B - Side burnishing device is used in glass production

Info

Publication number: CN118893553B
Application number: CN202411390645.0A
Authority: CN
Inventors: 李澈; 宋志�; 姜大伟
Original assignee: Jin Ken Glass Industry Shuangliao Co ltd
Current assignee: Jin Ken Glass Industry Shuangliao Co ltd
Priority date: 2024-10-08
Filing date: 2024-10-08
Publication date: 2025-02-14
Anticipated expiration: 2044-10-08
Also published as: CN118893553A

Abstract

The invention relates to the technical field of glass polishing, in particular to a side polishing device for glass production, which comprises a supporting base, a supporting frame arranged at the rear side of the supporting base, and a polishing component arranged at the side surface of the supporting frame, wherein the polishing component comprises a power mechanism arranged at the lower side surface of a horizontal section of the supporting frame, a supporting frame arranged at the lower end of the power mechanism, and a polishing mechanism arranged in the supporting frame. According to the invention, polishing and polishing operations are carried out on the glass side by adopting a mode of circularly moving the polishing roller and the polishing roller up and down, and after the polishing and polishing mechanism moves to one end of the support frame, the polishing roller can be controlled to rotate for one hundred eighty degrees, so that the polishing and polishing operations are carried out on the glass side by adopting a mode of polishing firstly and then, and the processing effect of the glass side is ensured; the clamping mechanism is used for limiting the left side, the right side and the front side of glass with different sizes, so that position deviation is prevented during glass polishing operation, and the glass polishing effect is improved.

Description

Side burnishing device is used in glass production

Technical Field

The invention relates to the technical field of glass polishing, in particular to a side polishing device for glass production.

Background

The side surface of the glass is affected by processing in the glass production process, and uneven conditions possibly occur, so that the side surface of the glass needs to be polished after the glass is processed in order to increase the accuracy of the later installation of the glass and the aesthetic degree of the glass.

The existing polishing mode of glass side is through piling up the glass and placing, then lock its position through the mode of pushing down, then carry out many times of polishing and polishing operation to it through polishing roller and polishing roller in proper order, still set up polishing roller and polishing roller together in addition in the existing operation and carry out synchronous polishing and polishing operation's mode to glass, but in the above-mentioned operation, polishing roller and polishing roller's position can't change, polishing roller and polishing roller first polish and polish the glass side when removing to one side promptly, when polishing roller and polishing roller reverse movement, polishing roller can contact with the glass side earlier, this kind of mode can increase the degree of wear of polishing roller, and then influence the polishing effect of glass side.

In addition, when glass carries out the locking of pushing down, the excessive pressure of pushing down can lead to glass to take place to damage, and the too little lower pressure of pushing down can make glass in the grinding with the polishing in-process by grinding roller or the hidden danger of polishing roller stirring, and then influence the polishing of glass side, when grinding roller and polishing roller carry out the operation to the glass side, because grinding roller and polishing roller are fixed relatively to the position that glass polished for grinding roller and polishing roller have the condition of abnormal wear, and then need change frequently, lead to the cost increase of polishing of glass side.

Disclosure of Invention

The technical scheme is adopted to solve the technical problems, and the side polishing device for glass production comprises a supporting base, a placing frame arranged on the supporting base, a clamping mechanism arranged on the placing frame, a supporting frame arranged on the rear side of the supporting base and a polishing component arranged on the side face of the supporting frame.

The supporting frame is of a U-shaped structure with a forward opening, the polishing mechanism comprises a polishing support arranged on the front side of the supporting frame and polishing rollers arranged in the polishing support, rotating columns are arranged on the upper side and the lower side of the polishing support in a rotating mode, polishing supports are distributed on the right side of the polishing rollers, polishing rollers are arranged in the polishing support, follow-up columns are arranged on the upper side and the lower side of the polishing support, and each rotating column is connected with the corresponding follow-up column in a locking mode through connecting rods.

The upper end of the rotating column above the polishing support slides and penetrates through the upper horizontal section of the supporting frame, a poking disc is arranged at the upper end of the rotating column, two locking pieces are symmetrically arranged on the upper horizontal section of the supporting frame around the rotating column as a center, one locking piece is inserted into a preset inserting groove of the follow-up column on the upper part of the polishing support, rotating fit mechanisms are symmetrically arranged on the left side and the right side of the lower side of the horizontal section of the supporting frame, the rotating fit mechanisms are used for unlocking the locking pieces inserted on the follow-up column, the polishing support is rotated for one hundred eighty degrees through the poking disc, and then the other locking piece is controlled to lock the follow-up column on the polishing support after rotation.

Preferably, the left front side and the left rear side of stirring the dish all are provided with the driving lever, and the locking piece includes the elastic locking post of sliding connection in the upper portion horizontal segment of carriage, and the upper end of elastic locking post extends to the carriage upside, and unlocking plate is installed at the top of elastic locking post, and normal running fit mechanism includes two unblocks that arrange about, and it has two barrier plates to distribute between two unblock pieces, and unlocking piece and barrier plate are all installed at the horizontal segment downside of support frame.

Preferably, the unlocking piece comprises an unlocking upright post arranged on the lower side face of the horizontal section of the support frame, a guide plate is arranged on the side face of the unlocking upright post, a lifting plate is hinged to one side, close to the middle of the support frame, of the guide plate, one side, close to the middle of the support frame, of the lifting plate is obliquely arranged downwards, a shaping supporting plate for supporting the lower side of the lifting plate is arranged on the lower side face of the lifting plate, and the shaping supporting plate is arranged on the side face of the unlocking upright post.

Preferably, the power mechanism comprises a follow-up plate which is arranged on the lower side surface of the horizontal section of the support frame through an electric sliding block, the follow-up plate is connected with the upper side surface of the support frame through a high elastic column, the vertical section of the support frame is provided with a track plate, the front side surface of the track plate is provided with a track groove, and the rear side surface of the support frame is provided with an attaching rod which is inserted in the track groove.

Preferably, the track board is connected in a preset placing groove of the supporting frame in a left-right sliding mode, pushing branched chains are arranged on the supporting frame and located at the left end and the right end of the placing groove, and a pushing frame matched with the pushing branched chains and used for carrying out left-right position adjustment on the track board in the placing groove is installed on the rear side face of the follow-up board.

Preferably, the pushing branched chain comprises an inclined rod with the middle part rotatably connected to the supporting frame, the lower end of the inclined rod is rotatably provided with a follow-up push plate, the follow-up push plate extends into the placing groove, the two ends of the track groove are horizontal, and the middle part of the track groove is wavy.

Preferably, both ends all are provided with the dovetail groove about the trailing flank of track board, and both ends all are provided with buckle elasticity post about the standing groove, and trapezoidal buckle piece is installed to buckle elasticity post's front end, and the trapezoidal buckle piece of left side locks in the dovetail groove of track board left side under the initial condition, and when the follower moved left, the carriage was pushed to the carriage drive left diagonal bar upper end and was rotated for the follower push pedal of diagonal bar lower extreme promotes the track board right side, and the trapezoidal buckle piece of left side and the dovetail groove separation of corresponding position this moment later moves right for the trapezoidal buckle piece on right side locks in the dovetail groove on track board right side.

Preferably, the polishing support is of a U-shaped structure with a forward opening, the upper horizontal section and the lower horizontal section of the polishing support are respectively provided with a yielding chute, the upper end and the lower end of the polishing roller are respectively provided with a sliding block in sliding fit with the yielding chute, the sliding blocks are in running fit with the polishing roller, and the side faces of the sliding blocks are installed on the side walls of the yielding chute through extrusion springs.

Preferably, the fixture includes the propelling movement cylinder of installing on the rack, installs at the flexible end of propelling movement cylinder and be the holder of U type structure, symmetry setting at the holder side, the top left and right sides of rack and lie in the holder be close to the holder one side along outside all be provided with interior pressure guide block, two interior pressure guide blocks connect the tip at the bi-directional cylinder of setting at the rack lower extreme.

Preferably, the clamping piece comprises an extrusion elastic column which is connected to the side edge of the clamping frame in a sliding manner, both ends of the extrusion elastic column penetrate through the side edge of the clamping frame, the clamping plate is installed at one end, far away from the outer edge of the clamping frame, of the extrusion elastic column, the other end of the extrusion elastic column is provided with a matching guide block, and the opposite side surfaces of the internal pressure guide block and the matching guide block are inclined planes.

The polishing mechanism has the beneficial effects that firstly, the polishing roller and the polishing roller are circularly moved up and down to polish and polish the side edge of the glass, so that the polishing effect of the side edge of the glass can be improved.

2. The clamping mechanism is used for limiting the left side, the right side and the front side of glass with different sizes, so that the front side of the glass has supporting force when the rear side of the glass is polished, the left side and the right side of the glass are limited, the position deviation can be prevented when the glass is polished, and the polishing effect of the glass is ensured.

3. According to the invention, the left side, the right side and the rear side of glass with different sizes are synchronously limited by adopting the movement of the clamping frame, so that the convenience of limiting the positions of the glass is improved, and meanwhile, the left side and the right side of the glass are synchronously moved inwards by adopting the clamping piece, so that the glass which is not orderly placed is normalized.

4. According to the invention, the position of the track plate is adjusted, so that different movement tracks are adopted to polish and polish glass when the supporting frame moves left and right, and the problem that the glass cannot be polished to an optimal effect due to insufficient contact with the glass easily when the polishing roller and the polishing roller move along the same track is solved.

5. According to the invention, the polishing roller is used for polishing the side edge of the glass in a buffering polishing mode, namely, when larger bulges are encountered, the polishing roller can perform lateral shrinkage buffering, so that the glass is prevented from being broken.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front plan view of the present invention.

Fig. 3 is a schematic perspective view of the horizontal section of the support frame according to the present invention.

Fig. 4 is a partial enlarged view at X in fig. 3.

Fig. 5 is a schematic perspective view of the invention after removal of the rack and clamping mechanism.

Fig. 6 is a schematic bottom perspective view of the unlocking member of the present invention.

Fig. 7 is a right side plan view of the present invention with the racks and clamping mechanism removed.

FIG. 8 is a cross-sectional view taken along A-A between the support frame and the sanding polishing mechanism of FIG. 7.

Fig. 9 is a schematic view of the semi-sectional structure between the vertical section of the support frame and the follower plate and pusher carriage of the present invention.

Fig. 10 is a side cross-sectional view of the present invention between a follower plate and a track pad.

Fig. 11 is a top cross-sectional view of the present invention between a follower plate and a track pad.

The device comprises a rack 1, a holding frame 2, a holding mechanism 21, a pushing cylinder 22, a holding frame 23, a holding piece 231, a pressing elastic column 232, a holding plate 233, a matching guide block 24, an internal pressure guide block 25, a bidirectional cylinder 3, a supporting frame 31, a track plate 311, a trapezoid groove 312, a buckling elastic column 313, a trapezoid buckling block 32, a track groove 33, an attaching rod 34, a placing groove 35, a pushing branched chain 351, a diagonal rod 352, a follow-up push plate 4, a power mechanism 41, an electric slide block 42, a follow-up plate 43, a high elastic column 44, a pushing frame 5, a supporting frame 51, a locking piece 52, an elastic locking column 53, an unlocking plate 6, a polishing mechanism 61, a polishing support 611, a yielding chute 612, a sliding block 613, a pressing spring 62, a polishing roller 63, a rotating column 631, a toggle disc 64, a polishing support 65, a roller 66, a follow-up column 661, a plug-in groove 7, a rotating matching mechanism 71, a lifting plate 73, a supporting plate 75, a fixing plate 76 and a fixing plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a side polishing device for glass production comprises a supporting base, a placing frame 1 arranged on the supporting base, a clamping mechanism 2 arranged on the placing frame 1, a supporting frame 3 arranged on the rear side of the supporting base, and a polishing component arranged on the side surface of the supporting frame 3, wherein the supporting frame 3 is of an L-shaped structure, the polishing component comprises a power mechanism 4 arranged on the lower side surface of a horizontal section of the supporting frame 3, a supporting frame 5 arranged at the lower end of the power mechanism 4, and a polishing mechanism 6 arranged in the supporting frame 5, the power mechanism 4 drives the supporting frame 5 to move left and right, so that the polishing mechanism 6 polishes glass on the placing frame 1, and the invention can perform integrated operation of polishing on tiled glass sides.

Referring to fig. 1-4, the clamping mechanism 2 comprises a pushing cylinder 21 installed on the placing frame 1, a clamping frame 22 installed at the telescopic end of the pushing cylinder 21 and in a U-shaped structure, and clamping pieces 23 symmetrically arranged on the sides of the clamping frame 22, wherein inner pressure guide blocks 24 are respectively arranged on the left side and the right side above the placing frame 1 and on one side, close to the outer edge of the placing frame 1, of the clamping frame 22, the two inner pressure guide blocks 24 are connected to the end parts of a bidirectional cylinder 25 arranged at the lower end of the placing frame 1, the clamping mechanism 2 is used for limiting the left side and the right side of glass with different sizes, the front side of the glass has supporting force when the rear side of the glass is polished, the position of the left side and the right side of the glass can be prevented from deviating when the rear side of the glass is polished, the polishing effect of the glass is guaranteed, specifically, after the glass is tiled on the placing frame 1, the left side and the right side of the glass is controlled to stretch and move according to the length of the glass, the pushing cylinder 21 is controlled to stretch, the middle part of the clamping frame 22 is made to support the front side of the glass, and simultaneously the left side and right side of the glass is not limited by the inner pressure guide blocks 23, and the left side and right side of the glass is not limited by the inner side of the glass, and the glass is simultaneously moved to the left side and right side of the glass 23 is not limited, and the glass is simultaneously and the right side of the glass is guaranteed.

Referring to fig. 3-4, the clamping member 23 includes an extrusion elastic column 231 slidably connected to the side of the clamping frame 22, wherein both ends of the extrusion elastic column 231 penetrate through the side of the clamping frame 22, one end of the extrusion elastic column 231 far away from the outer edge of the placing frame 1 is provided with a clamping plate 232, the other end of the extrusion elastic column 231 is provided with a matching guide block 233, opposite sides of the matching guide block 233 and the internal pressure guide block 24 are inclined surfaces, the clamping member 23 is used for matching with the internal pressure guide block 24 and limiting the left and right sides of the glass to prevent the glass from being deflected during polishing, specifically, when the clamping frame 22 moves backwards, the inclined surfaces of the matching guide block 233 are contacted with the inclined surfaces of the internal pressure guide block 24 to enable the extrusion elastic column 231 to synchronously move inwards, when the middle part of the clamping frame 22 abuts against the front side of the glass, the clamping plate 232 also abuts against the left and right sides of the glass, and when the glass needs to be unlocked, the pushing cylinder 21 is controlled to shrink to release the locking of the glass.

Referring to fig. 1,2, 5 and 7, the power mechanism 4 comprises a follower plate 42 mounted on the lower side of the horizontal section of the support frame 3 through an electric sliding block 41, the follower plate 42 is connected with the upper side of the support frame 5 through a high elastic column 43, the vertical section of the support frame 3 is provided with a track plate 31, the front side of the track plate 31 is provided with a track groove 32, two ends of the track groove 32 are horizontal, the middle part of the track groove is wavy, the rear side of the support frame 5 is provided with an attaching rod 33 inserted in the track groove 32, the electric sliding block 41 on the power mechanism 4 is used for driving the support frame 5 to move left and right, and when the support frame 5 moves left and right, the support frame 5 can also reciprocate up and down under the cooperation of the track groove 32 and the attaching rod 33, at the moment, the high elastic column 43 can stretch in a matched mode, and then the polishing mechanism 6 reciprocates up and down synchronously under the driving of the support frame 5, so that the polishing and polishing effects of the side face of glass are improved.

Referring to fig. 2, 5, 7 and 9, since the dimensions of the outer sides of the polishing roller 62 and the polishing roller 65 on the polishing mechanism 6 may be slightly changed when the polishing mechanism is used for a long time, if the same track is always adopted to move, the condition that the polishing roller 62 and the polishing roller 65 cannot be fully contacted with glass easily occurs, so that the glass cannot be polished to an optimal effect, the polishing effect of the glass is further improved by adopting a mode that the glass is polished and polished along different moving tracks when the supporting frame 5 moves left and right, the track plate 31 is slidingly connected left and right in a preset placing groove 34 of the supporting frame 3, pushing branched chains 35 are arranged on the supporting frame 3 and positioned at the left end and the right end of the placing groove 34, a pushing frame 44 which is matched with the pushing branched chains 35 and carries out left and right position adjustment on the track plate 31 in the placing groove 34 is arranged on the rear side of the follower plate 42, the pushing branched chains 35 comprise inclined rods 351 which are rotationally connected to the supporting frame 3 in the middle, the lower ends of the inclined rods 351 are rotationally arranged, and the follower pushing plates 352 extend into the placing groove 34.

Referring to fig. 10 and 11, in order to increase stability of the track board 31, the present invention sets the trapezoidal buckle block 313 to lock the track board 31, so that the track board 31 will not displace randomly under the action of no pushing force, the left and right ends of the back side of the track board 31 are both provided with trapezoidal grooves 311, the left and right ends of the placing groove 34 are both provided with buckle elastic columns 312, the front end of the buckle elastic column 312 is provided with the trapezoidal buckle block 313, the trapezoidal buckle block 313 on the left side in the initial state is locked in the trapezoidal groove 311 on the left side of the track board 31, and under the condition that a larger pushing force is applied to the track board 31, the trapezoidal groove 311 and the trapezoidal buckle block 313 are separated from each other, and only a limiting function and a locking function are not provided between the two.

Specifically, when the electric slider 41 drives the follower plate 42 to move leftwards, the left side surface of the track plate 31 abuts against the left side of the placement groove 34, after the attaching rod 33 moves from the wavy structure of the track groove 32 to the horizontal structure, the pushing frame 44 contacts with the upper end of the left inclined rod 351, the pushing frame 44 drives the upper end of the left inclined rod 351 to rotate, the follower plate 352 at the lower end of the inclined rod 351 pushes the track plate 31 to the right side, at the moment, the left trapezoidal buckling block 313 is separated from the trapezoidal groove 311 at the corresponding position, then the track plate 31 moves rightwards, the right trapezoidal buckling block 313 is locked in the trapezoidal groove 311 at the right side of the track plate 31, and then the position of the track plate 31 is changed, and when the electric slider 41 moves rightwards, the track groove 32 on the track plate 31 changes the guiding track of the attaching rod 33, so that the glass polishing effect is improved.

Referring to fig. 1, 5, 7 and 8, the supporting frame 5 is of a U-shaped structure with a forward opening, the polishing mechanism 6 comprises a polishing support 61 installed on the front side of the supporting frame 5 and polishing rollers 62 installed in the polishing support 61, rotating columns 63 are rotatably installed on the upper side and the lower side of the polishing support 61, polishing supports 64 are distributed on the right side of the polishing rollers 62, polishing rollers 65 are installed in the polishing supports 64, follow-up columns 66 are installed on the upper side and the lower side of the polishing supports 64, each rotating column 63 is in locking connection with the corresponding follow-up column 66 through a connecting rod, when the supporting frame 5 moves leftwards in an initial state, the polishing rollers 62 polish the glass side edges first, and then the polishing rollers 65 polish the glass side edges, so that the polishing precision and effect of the glass can be improved.

It should be noted that, the polishing rollers 62 and 65 are each provided with a driving motor, so that the polishing rollers 62 and 65 can polish and polish the glass side edges in a rotating manner.

When larger protrusions appear on the side edges of glass, if a rigid polishing mode is adopted, the glass is easy to crack, therefore, the polishing roller 62 is arranged in the invention, when the larger protrusions are encountered, the polishing roller 62 can shrink and buffer laterally, the glass is prevented from cracking, the polishing support 61 is of a U-shaped structure with a front opening, the upper horizontal section and the lower horizontal section of the polishing support 61 are both provided with the abdication sliding grooves 611, the upper end and the lower end of the polishing roller 62 are both provided with sliding blocks 612 which are in sliding fit with the abdication sliding grooves 611, the sliding blocks 612 are in rotating fit with the polishing roller 62, the side surfaces of the sliding blocks 612 are arranged on the side walls of the abdication sliding grooves 611 through the extrusion springs 613, and particularly, when the polishing roller 62 encounters the larger protrusions, the extrusion springs 613 shrink, the glass is prevented from cracking, meanwhile, the polishing roller 62 can stay at the position of the larger protrusions for a period of time, and further the positions of the protrusions on the side edges of the glass are polished smoothly, and the subsequent polishing treatment is facilitated.

Referring to fig. 1, 5, 7 and 8, the upper end of the rotating column 63 above the polishing support 61 slides through the upper horizontal section of the supporting frame 5, a stirring disc 631 is arranged at the upper end of the rotating column 63, two locking pieces 51 are symmetrically installed on the upper horizontal section of the supporting frame 5 around the rotating column 63, one locking piece 51 is inserted into an inserting groove 661 preset in the following column 66 above the polishing support 64, rotating matching mechanisms 7 are symmetrically installed on the left side and the right side of the lower side of the horizontal section of the supporting frame 3, the rotating matching mechanisms 7 are used for unlocking the locking pieces 51 inserted on the following column 66, rotating the polishing support 64 by one hundred eighty degrees through the stirring disc 631, then controlling the other locking piece 51 to lock the following column 66 on the rotated polishing support 64, and after the polishing mechanism 6 moves to the left end of the supporting frame 3, the polishing roller 65 rotates one hundred eighty degrees, so that when the supporting frame 5 still moves to the right, the processing effect of the glass side is increased by polishing after polishing.

Referring to fig. 3, 6-8, the left front side and the left rear side of the toggle disc 631 are respectively provided with a toggle rod, the locking piece 51 comprises an elastic locking column 52 which is slidably connected to the upper horizontal section of the supporting frame 5, the upper end of the elastic locking column 52 extends to the upper side of the supporting frame 5, the top of the elastic locking column 52 is provided with an unlocking plate 53, the rotating fit mechanism 7 comprises two unlocking pieces 71 which are arranged left and right, two blocking plates 72 are distributed between the two unlocking pieces 71, the unlocking pieces 71 and the blocking plates 72 are respectively arranged on the lower side surface of the horizontal section of the supporting frame 3, the unlocking pieces 71 comprise unlocking upright posts 73 which are arranged on the lower side surface of the horizontal section of the supporting frame 3, a guide plate 74 is arranged on the side surface of the unlocking upright posts 73, one side of the guide plate 74 close to the middle of the supporting frame 3 is hinged with a lifting plate 75, one side of the lifting plate 75 close to the middle of the supporting frame 3 is downwards inclined, the other side of the lifting plate 75 is horizontal, the lower side of the lifting plate 75 is provided with a shaping supporting plate 76 which supports the lower side of the lifting plate, and the shaping supporting plate 76 is arranged on the side surface of the upright post 73.

The polishing roller 65 position adjustment method specifically comprises the steps that after a polishing roller 65 finishes polishing a glass side edge, the unlocking plate 53 on the right side is contacted with the lifting plate 75 close to the middle of the supporting frame 5, the lower end of the elastic locking column 52 is enabled to move upwards from the inserting groove 661 formed in the follow-up column 66 on the upper portion of the polishing support 64, then the shifting rod on the shifting disc 631 is sequentially contacted with the two blocking plates 72, the shifting disc 631 can rotate by one hundred eighty degrees, the shifting disc 631 drives the rotating column 63 to rotate, the rotating column 63 drives the polishing support 64 to synchronously rotate through the connecting rod, the polishing roller 65 can rotate by one hundred eighty degrees, in the process of rotating the polishing roller 65, the unlocking plate 53 on the left side moves onto the guide plate 74 under the action of the lifting plate 75 far away from the middle of the supporting frame 5, the elastic locking column 52 moves upwards, after the polishing roller 65 rotates in place, the unlocking plate 53 on the left side is separated from the guide plate 74, the position of the follow-up column 66 on the left side can be locked by the shifting plate 53, the polishing roller 65 can rotate by one hundred eighty degrees, the polishing support 65 can be adjusted, and the polishing roller 65 can not move to the lifting plate 75, and the polishing roller 65 can move rightwards due to the fact that the polishing plate is adjusted.

It should be noted that, the cooperation of the shift lever on the shift disc 631 and the two blocking plates 72 can make the shift disc 631 rotate one hundred eighty degrees, and the upper end of the insertion slot 661 may be configured as a flaring structure, so that the position locking of the follower post 66 will not be affected when the shift disc 631 rotates to generate a small deviation.

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

Claims

1. A side polishing device for glass production, comprising a support base, a placement frame (1) mounted on the support base, a clamping mechanism (2) mounted on the placement frame (1), a support frame (3) mounted on the rear side of the support base, and a grinding component mounted on the side of the support frame (3), characterized in that the support frame (3) is an L-shaped structure, and the grinding component comprises a power mechanism (4) mounted on the lower side of the horizontal section of the support frame (3), a support frame (5) mounted at the lower end of the power mechanism (4), and a grinding and polishing mechanism (6) mounted in the support frame (5);

The support frame (5) is a U-shaped structure with an opening facing forward. The grinding and polishing mechanism (6) comprises a grinding bracket (61) mounted on the front side of the support frame (5), and a grinding roller (62) mounted in the grinding bracket (61). Rotating columns (63) are rotatably mounted on the upper and lower sides of the grinding bracket (61). A polishing bracket (64) is distributed on the right side of the grinding roller (62). A polishing roller (65) is mounted in the polishing bracket (64). Follower columns (66) are mounted on the upper and lower sides of the polishing bracket (64). Each rotating column (63) is locked and connected to the follower column (66) at the corresponding position by a connecting rod.

The upper end of the rotating column (63) above the polishing bracket (61) slides through the upper horizontal section of the support frame (5), and a toggle plate (631) is provided at the upper end of the rotating column (63). The upper horizontal section of the support frame (5) is symmetrically provided with two locking members (51) with the rotating column (63) as the center, one of the locking members (51) is inserted into a preset insertion groove (661) of a follower column (66) on the upper part of the polishing bracket (64), and a rotating matching mechanism (7) is symmetrically provided on both sides of the lower side surface of the horizontal section of the support frame (3). The rotating matching mechanism (7) is used to unlock the locking member (51) inserted into the follower column (66), and rotate the polishing bracket (64) by one hundred and eighty degrees through the toggle plate (631), and then control the other locking member (51) to lock the follower column (66) on the rotated polishing bracket (64);

The left front side and the left rear side of the toggle plate (631) are both provided with toggle rods, the locking member (51) comprises an elastic locking column (52) slidably connected to the upper horizontal section of the support frame (5), the upper end of the elastic locking column (52) extends to the upper side of the support frame (5), an unlocking plate (53) is installed on the top of the elastic locking column (52), the rotation matching mechanism (7) comprises two unlocking members (71) arranged on the left and right, two blocking plates (72) are distributed between the two unlocking members (71), and the unlocking member (71) and the blocking plate (72) are both installed on the lower side of the horizontal section of the support frame (3);

The unlocking member (71) comprises an unlocking column (73) installed on the lower side of the horizontal section of the support frame (3); a guide plate (74) is installed on the side of the unlocking column (73); a lifting plate (75) is hingedly connected to the side of the guide plate (74) close to the middle of the support frame (3); the lifting plate (75) is arranged to be tilted downward on the side close to the middle of the support frame (3); a shaping support plate (76) is arranged on the lower side of the lifting plate (75) to support the lower side thereof; the shaping support plate (76) is installed on the side of the unlocking column (73).

2. A side polishing device for glass production according to claim 1, characterized in that the power mechanism (4) includes a follower plate (42) installed on the lower side of the horizontal section of the support frame (3) through an electric slider (41), the follower plate (42) is connected to the upper side of the support frame (5) through a highly elastic column (43), the vertical section of the support frame (3) is installed with a track plate (31), the front side of the track plate (31) is provided with a track groove (32), and the rear side of the support frame (5) is installed with an attachment rod (33) inserted in the track groove (32).

3. A side polishing device for glass production according to claim 2, characterized in that the track plate (31) is slidably connected to the preset placement groove (34) of the support frame (3) left and right, and a pushing branch chain (35) is provided on the support frame (3) and located at the left and right ends of the placement groove (34), and a pushing frame (44) is installed on the rear side of the follower plate (42) for cooperating with the pushing branch chain (35) to drive the track plate (31) to adjust the left and right position in the placement groove (34).

4. A side polishing device for glass production according to claim 3, characterized in that the pushing branch chain (35) includes an inclined rod (351) rotatably connected to the support frame (3) in the middle, and a follower push plate (352) is rotatably installed at the lower end of the inclined rod (351), and the follower push plate (352) extends into the placement groove (34); the two ends of the track groove (32) are horizontal, and the middle part is wavy.

5. A side polishing device for glass production according to claim 4, characterized in that trapezoidal grooves (311) are provided at both ends of the rear side surface of the track plate (31), snap-on elastic columns (312) are provided at both ends of the placement groove (34), and a trapezoidal snap-on block (313) is installed at the front end of the snap-on elastic column (312).

6. A side polishing device for glass production according to claim 1, characterized in that the grinding bracket (61) is a U-shaped structure with its opening facing forward, the upper and lower horizontal sections of the grinding bracket (61) are both provided with a clearance groove (611), the upper and lower ends of the grinding roller (62) are both provided with a sliding block (612) that slides with the clearance groove (611), the sliding block (612) and the grinding roller (62) are rotationally matched, and the side of the sliding block (612) is installed on the side wall of the clearance groove (611) through an extrusion spring (613).

7. A side polishing device for glass production according to claim 1, characterized in that the clamping mechanism (2) includes a pushing cylinder (21) installed on a placement rack (1), a clamping rack (22) installed at the telescopic end of the pushing cylinder (21) and having a U-shaped structure, and a clamping member (23) symmetrically arranged on the side of the clamping rack (22), and internal pressure guide blocks (24) are arranged on the left and right sides above the placement rack (1) and on one side of the clamping rack (22) close to the outer edge of the placement rack (1), and the two internal pressure guide blocks (24) are connected to the ends of the two-way cylinder (25) at the lower end of the placement rack (1).

8. A side polishing device for glass production according to claim 7, characterized in that the clamping member (23) includes an extrusion elastic column (231) slidably connected to the side of the clamping frame (22), and both ends of the extrusion elastic column (231) pass through the side of the clamping frame (22), a clamping plate (232) is installed at one end of the extrusion elastic column (231) away from the outer edge of the placement frame (1), and a matching guide block (233) is installed at the other end of the extrusion elastic column (231), and the opposite side surfaces of the internal pressure guide block (24) and the matching guide block (233) are both inclined surfaces.