CN110980293B - Transfer device is made in curved surface toughened glass production - Google Patents

Abstract

The invention relates to a curved toughened glass production, manufacturing and transferring device, which comprises a ground table, a lower clamping device and an upper clamping device, wherein the lower clamping device is arranged on the upper end surface of the ground table, and the upper clamping device is arranged above the lower clamping device.

Description

Transfer device is made in curved surface toughened glass production

Technical Field

The invention relates to the technical field of glass production and manufacturing, in particular to a transfer device for curved surface toughened glass production and manufacturing.

Background

The toughened glass belongs to safety glass, it can be said a prestressed glass, in order to raise the strength of glass, usually use the chemical or physical method, form the compressive stress on the glass surface, the surface layer stress is counteracted at first when the glass bears the external force, thus has improved the carrying capacity, strengthen the self-wind pressure resistance of the glass, the cold and hot property, impact property, etc., the toughened glass has advantages such as high security, high strength, good heat stability, etc., it is applied to the door and window of the high-rise building extensively, glass curtain wall, indoor partition glass, daylighting ceiling, sightseeing elevator channel, furniture, glass guard rail, etc., the toughened glass is divided into the flat toughened glass and curved toughened glass according to the shape, the curved toughened glass heats the float glass, according to the double curved shape pattern requirement, through the auxiliary shaping of the bottom mould, the leading shaping of the top mould, and form after the rapid cooling treatment, however, the following problems occur in the handling process of the curved toughened glass:

1. although the curved surface toughened glass has high strength, when the curved surface toughened glass is directly conveyed, the curved surface toughened glass is easy to shake or shift, which is not beneficial to collective conveying of a plurality of blocks, and the curved surface toughened glass can be inclined or separated from a conveying tool under the condition of large shaking or shifting amplitude, so that the curved surface toughened glass is broken, and operators are also injured by the phenomenon;

2. under only fixing curved surface glass one end, easily making curved surface toughened glass be in unbalanced state, placing or handling simultaneously, curved surface toughened glass easily and the device of locating between take place great collision, increased curved surface toughened glass and taken place the probability of crack or mar phenomenon, and then lead to the fact the influence to curved surface toughened glass's outward appearance and use.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the transfer device for producing and manufacturing the curved surface toughened glass comprises a ground placing table, a lower clamping device and an upper clamping device, wherein the lower clamping device is installed on the upper end surface of the ground placing table, and the upper clamping device is installed above the lower clamping device.

The lower clamping device comprises a belt conveyor, a curved surface clamping seat, an interlayer spring and a bottom plate, wherein the belt conveyor is arranged on the upper end surface of the ground placing table, the curved surface clamping seat is arranged on the belt conveyor in a sliding fit mode at equal intervals from left to right, an arc groove is formed in the upper end surface of the curved surface clamping seat, and the interlayer spring is arranged at the bottom of the arc groove at equal intervals from front to back. The upper end of intermediate layer spring links to each other with the lower terminal surface of bottom plate, the bottom plate is located the arc inslot and is the sliding fit mode between both ends and the arc groove about the bottom plate, through the vertical arc inslot of placing curved surface toughened glass on the curved surface cassette of manual mode, make the upper end of bottom plate arranged in to its lower extreme, curved surface toughened glass suppresses the bottom plate downwards, and make the intermediate layer spring do the shrink motion down until being in compression state, play the absorbing effect of buffering in curved surface toughened glass place the in-process and follow-up transportation, reduce curved surface toughened glass and appear the probability of great phenomenon of rocking because of receiving exogenic action or undulant.

The upper clamping device comprises an inverted U-shaped frame, an electric slider, an electric push rod, a connecting plate and a curved surface clamping plate, the inverted U-shaped frame is arranged on the upper end face of the ground-placing table, the electric slider is arranged on the inner lower end face of the inverted U-shaped frame in a sliding fit mode in a left-right equidistance mode, the electric push rod is symmetrically arranged in front of and behind the lower end face of the electric slider, the lower end face of the electric push rod is connected with the upper end face of the connecting plate, the curved surface clamping plate is symmetrically arranged on the left side and the right side of the lower end face of the connecting plate, the curved surface clamping plate is located right above the curved surface clamping seat and pushes the connecting plate downwards through the electric push rod, the connecting plate drives the curved surface clamping plate to move synchronously until the curved surface clamping plate completely clamps the curved surface toughened glass.

According to the preferable technical scheme, the pressing plates are symmetrically arranged on the left and right sides of the upper portion of the bottom plate, the pressing plates are in sliding fit with the arc grooves, the first telescopic rod is arranged on the outer side of each pressing plate, the outer side end of the first telescopic rod is connected with the inner bottom wall of the mounting groove, the mounting groove is formed in the inner side wall of each arc groove, the curved toughened glass presses the pressing plates towards the outer side in the process of manually placing the curved toughened glass into the arc grooves, the inner side faces of the pressing plates are always attached to the surface of the curved toughened glass, the pressing plates enable the first telescopic rods to do contraction movement, after the curved toughened glass is placed, the pressing plates are attached to the surface of the curved toughened glass under the action of the first telescopic rods, the auxiliary fixing effect is achieved on the curved toughened glass, meanwhile, the device can be suitable for curved toughened glass with.

As a preferred technical scheme of the invention, rectangular grooves are symmetrically formed in the left and right of the upper end face of the curved surface clamping seat, the rectangular grooves are equidistantly arranged from front to back, a rotating shaft is arranged in each rectangular groove in a sliding fit manner, a stop lever is arranged on each rotating shaft, the outer end of each stop lever faces the center of the curved surface clamping seat, the outer end face of each stop lever is connected with the inner end face of a flat plate, a clamping plate is arranged below each stop lever, the included angle between each clamping plate and each stop lever is 90 degrees, the upper end of each clamping plate is arranged on each rotating shaft, vertical blocks are symmetrically arranged in the front and back of the outer end face of each curved surface clamping seat, through holes are formed in each vertical block, clamping pins are arranged in the through holes in a sliding fit manner, the flat plates are upwards rotated manually, the flat plates with the stop levers and the clamping plates synchronously move through the rotating shafts, and when the left ends of the clamping plates, the bayonet lock plays limiting displacement to the bayonet lock, avoids its phenomenon of downward gyration to appear, and then plays fixed action to dull and stereotyped and pin, makes the pin can only upwards rotate 90 and keep vertical state simultaneously again.

As a preferred technical scheme of the invention, the right end face of the clamping plate is provided with the reinforcing rib, the reinforcing rib is of an inclined structure, the upper end of the reinforcing rib is connected with the lower end face of the stop lever, and the reinforcing rib plays a role in reinforcing and stabilizing the 90-degree state between the stop lever and the clamping plate, so that the stop lever in a vertical state plays an auxiliary supporting role, and the clamping degree of curved surface toughened glass is improved.

As a preferred technical scheme of the invention, the front and the back of the upper end surface of the flat plate are symmetrically provided with two telescopic rods, the upper end surface of each telescopic rod is connected with the lower end surface of the corresponding abutting block, the upper end surface of each abutting block is of a curved surface structure, when the flat plate is in a vertical state, the abutting blocks are tightly attached to the outer surface of curved surface toughened glass under the action of the two telescopic rods, the abutting blocks provide inward abutting force for the curved surface toughened glass, the abutting forces in opposite left and right directions play roles in assisting fixing and limiting the curved surface toughened glass, the vertical state is kept, the probability of the left and right sliding phenomenon of the curved surface toughened glass in the conveying process is greatly reduced, and the integrity of the curved surface toughened glass is effectively ensured.

As a preferred technical scheme of the invention, the rubber layer is arranged on the upper end surface of the abutting block, and the rubber layer plays a role in buffering and damping curved toughened glass and reduces the probability of scratches on the outer surface of the curved toughened glass caused by the upper end surface of the abutting block, thereby effectively ensuring the appearance quality of the curved toughened glass.

As a preferred technical scheme, the inner side end of the curved surface clamping plate is provided with the elastic balls at equal intervals from front to back, the elastic balls are arranged at equal intervals from top to bottom, the elastic balls can reduce the friction between the contact part of the curved surface clamping plate and the curved surface toughened glass, the smoothness of the downward movement process of the curved surface clamping plate attached to the curved surface toughened glass is improved, the probability of scratches on the surface clamping part of the curved surface toughened glass is further reduced, and meanwhile, a certain buffering and damping effect can be achieved on the upper end of the curved surface toughened glass.

According to a preferred technical scheme, a round hole is formed in the left end face of the connecting plate, a distance rod is installed in the round hole in a sliding fit mode, two threads with opposite thread directions are arranged on the distance rod, the moving plate is connected with the distance rod in a thread mode, a sliding fit mode is formed between the upper end of the moving plate and the connecting rod, the lower end of the moving plate is connected with the upper end face of the curved clamping plate, a nut is installed at the right end of the distance rod in a thread fit mode, the left end face of the nut is attached to the right end face of the connecting plate, the distance rod moving plate is manually rotated in advance to move in opposite directions according to the thickness of curved toughened glass to be conveyed, the moving plate drives the curved clamping plate to move synchronously until the distance is matched, then the nut is screwed to fix the distance rod, the curved clamping plate is further.

As a preferred technical scheme of the invention, the front side of the distance rod is provided with a telescopic square rod, the left end of the telescopic square rod is in sliding fit with the left end of the distance rod, the front end surface of the telescopic square rod is provided with scale marks, the right end surface of the telescopic square rod is connected with the left end surface of the connecting plate, the left end of the distance rod presses the telescopic square rod to do contraction movement to the right while rotating to the right, and the distance between the curved clamping plates can be accurately controlled according to the scale marks on the telescopic square rod, so that the distance between the curved clamping plates can be adapted to curved toughened glass with corresponding thickness and size.

(II) advantageous effects

1. According to the transfer device for curved toughened glass production, the curved toughened glass is conveyed by adopting a multipoint fixed and adjustable design concept, the upper end and the lower end of the curved toughened glass are clamped and fixed, so that the integral stability of the curved toughened glass in the placing and conveying processes is improved, meanwhile, an adjustable structure is adopted to adapt to clamping and conveying of curved toughened glass with different thickness sizes, and the integral utilization rate of the device is improved;

2. the supporting block provides the curved surface toughened glass with the supporting force in the opposite and inward left-right directions, the supporting force plays a role in auxiliary fixing and limiting the curved surface toughened glass and keeps a vertical state, the probability of the left-right sliding phenomenon of the curved surface toughened glass in the conveying process is greatly reduced, and the integrity of the curved surface toughened glass is further effectively ensured;

3. the elastic ball can reduce the friction between the contact part of the curved surface clamping plate and the curved surface toughened glass, and improve the smoothness of the downward movement process of the curved surface clamping plate attached to the curved surface toughened glass, thereby reducing the probability of scratches on the surface clamping part of the curved surface toughened glass, and simultaneously playing a certain role in buffering and damping the upper end of the curved surface toughened glass;

4. the reinforcing ribs play a role in strengthening and stabilizing the state of keeping 90 degrees between the stop lever and the clamping plate, so that the stop lever in a vertical state plays an auxiliary supporting role, and the clamping degree of the curved surface toughened glass is improved;

5. the interlayer spring plays a role in buffering and damping the curved toughened glass in the process of placing the curved toughened glass and the subsequent transportation process, and reduces the probability of large shaking phenomenon of the curved toughened glass due to the action or fluctuation of external force.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a second cross-sectional view of the present invention;

FIG. 4 is a third cross-sectional view of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 according to the present invention in the X direction;

FIG. 6 is an enlarged view of a portion of the invention in the direction Y of FIG. 1;

FIG. 7 is an enlarged view of the invention in the Z-direction of FIG. 2;

FIG. 8 is an enlarged view of the M-direction portion of FIG. 2 in accordance with the present invention;

FIG. 9 is an enlarged view of the N-direction portion of FIG. 3 in accordance with the present invention;

FIG. 10 is an enlarged view of the invention taken from the point P in FIG. 3;

FIG. 11 is an enlarged view of the R-direction portion of FIG. 4 according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 11, the transfer device for curved surface toughened glass production and manufacture comprises a ground table 1, a lower clamping device 2 and an upper clamping device 3, wherein the lower clamping device 2 is installed on the upper end surface of the ground table 1, and the upper clamping device 3 is installed above the lower clamping device 2.

The lower clamping device 2 comprises a belt conveyor 21, a curved clamping seat 22, an interlayer spring 23 and a bottom plate 24, the belt conveyor 21 is installed on the upper end face of the ground table 1, the curved clamping seat 22 is installed on the belt conveyor 21 in a sliding fit mode from left to right at equal intervals, an arc groove is formed in the upper end face of the curved clamping seat 22, and the interlayer spring 23 is installed at the bottom of the arc groove from front to back at equal intervals. The upper end of intermediate layer spring 23 links to each other with the lower terminal surface of bottom plate 24, bottom plate 24 is located the arc inslot and is the sliding fit mode between both ends and the arc groove about bottom plate 24, through the vertical arc inslot of placing curved surface toughened glass on curved surface cassette 22 of manual mode, make its lower extreme arrange the upper end of bottom plate 24 in, curved surface toughened glass suppresses bottom plate 24 downwards, and make intermediate layer spring 23 do the concertina movement down until being in compression state, play the absorbing effect of buffering in curved surface toughened glass place the in-process and follow-up transportation, reduce curved surface toughened glass and appear the probability of great phenomenon of rocking because of receiving exogenic action or undulant.

The top bilateral symmetry of bottom plate 24 be provided with clamp plate 241, be sliding fit between clamp plate 241 and the arc groove, telescopic link 242 is installed No. one in the outside of clamp plate 241, the outside end of telescopic link 242 links to each other with the interior diapire of mounting groove, the mounting groove is seted up on the arc inslot lateral wall, put curved surface toughened glass into the arc inslot in-process through artifical mode, curved surface toughened glass suppresses clamp plate 241 to the outside, the medial surface of clamp plate 241 pastes curved surface toughened glass surface all the time, clamp plate 241 makes telescopic link 242 do the shrink motion, after curved surface toughened glass placed the completion, clamp plate 241 hugs closely with curved surface toughened glass surface under the effect of telescopic link 242, play the auxiliary fixation effect to curved surface toughened glass, also make the adaptable curved surface toughened glass with other thickness sizes of device simultaneously, the utilization ratio of the device is improved.

The upper end surface of the curved card holder 22 is symmetrically provided with rectangular grooves at left and right, the rectangular grooves are equidistantly arranged from front to back, a rotating shaft 221 is arranged in the rectangular grooves in a sliding fit manner, a stop lever 222 is arranged on the rotating shaft 221, the outer end of the stop lever 222 faces the curved center of the curved card holder 22, the outer end surface of the stop lever 222 is connected with the inner end surface of a flat plate 223, a clamping plate 224 is arranged below the stop lever 222, the included angle between the clamping plate 224 and the stop lever 222 is 90 degrees, the upper end of the clamping plate 224 is arranged on the rotating shaft 221, vertical blocks 225 are symmetrically arranged in front and back of the outer end surface of the curved card holder 22, through holes are arranged on the vertical blocks 225, clamping pins 226 are arranged in the through sliding fit manner, the flat plate 223 is upwards rotated manually, the flat plate 223 with the stop lever 222 and the clamping plate 224 are synchronously moved through the rotating shaft 221, when the left end of the clamping plate 224, insert bayonet pin 226 through artifical mode in the through-hole, bayonet pin 226 plays limiting displacement to bayonet plate 224, avoids its phenomenon of turning round downwards to appear, and then plays fixed action to dull and stereotyped 223 and pin 222, makes pin 222 can only upwards rotate 90 and keep vertical state again simultaneously.

The utility model discloses a curved surface toughened glass conveying device, including dull and stereotyped 223, the up end of flat board 223 front and back symmetry install No. two telescopic links 22b, the up end of No. two telescopic links 22b links to each other with the lower terminal surface that supports piece 22c, the up end that supports piece 22c is the curved surface structure, when flat board 223 is in vertical state, support piece 22c is under No. two telescopic links 22b effects, its curved surface structure hugs closely in curved surface toughened glass surface, support piece 22c and give curved surface toughened glass inward offset, offset opposite in left and right sides direction plays supplementary fixed and limiting displacement to curved surface toughened glass, and keep vertical state, greatly reduced curved surface toughened glass the probability of the horizontal slip phenomenon in the transportation process, and then effectively guarantee curved surface toughened glass's integrality.

The upper clamping device 3 comprises an inverted U-shaped frame 31, an electric slider 32, an electric push rod 33, a connecting plate 34 and a curved clamping plate 35, the inverted U-shaped frame 31 is arranged on the upper end face of the ground table 1, the electric sliders 32 are arranged on the inner lower end face of the inverted U-shaped frame 31 in a sliding fit mode from left to right at equal intervals, the electric push rods 33 are symmetrically arranged on the front and back of the lower end face of each electric slider 32, the lower end face of each electric push rod 33 is connected with the upper end face of the corresponding connecting plate 34, the curved clamping plates 35 are symmetrically arranged on the left and right of the lower end face of each connecting plate 34, the curved clamping plates 35 are positioned right above the curved clamping seats 22, the connecting plates 34 are pushed downwards through the electric push rods 33, the curved clamping plates 35 are driven by the connecting plates 34 to synchronously move until the curved clamping plates 35 completely clamp curved toughened glass, the upper, the curved surface toughened glass integrally moves to the corresponding position.

A round hole is arranged on the left end face of the connecting plate 34, a distance rod 341 is arranged in the round hole in a sliding fit mode, two threads with opposite thread directions are arranged on the distance rod 341, the moving plate 342 is connected with the distance rod 341 in a thread mode, a sliding fit mode is arranged between the upper end of the moving plate 342 and the connecting plate 34, the lower end of the moving plate 342 is connected with the upper end face of the curved surface clamping plate 35, a nut is arranged on the right end of the distance rod 341 in a thread fit mode, the left end face of the nut is tightly attached to the right end face of the connecting plate 34, according to the thickness of the curved toughened glass to be conveyed, the distance rod 341 is manually rotated in advance to move the movable plate 342 in opposite directions, the movable plate 342 drives the curved clamping plate 35 to synchronously move until the distance reaches the corresponding distance, the nut is then tightened to fix the distance rod 341 and thus the curved clamping plate 35 from moving, maintaining the existing distance.

Distance pole 341's front side be provided with flexible square bar 34d, be sliding fit between the left end of flexible square bar 34d and the left end of distance pole 341, flexible square bar 34 d's preceding terminal surface is provided with the scale mark, flexible square bar 34 d's right-hand member face links to each other with the left end face of connecting plate 34, when distance pole 341 limit rotated the limit and moved right, its left end is pressed flexible square bar 34d and is contracted movement right, according to the scale mark on flexible square bar 34d, can be accurate the distance between the curved surface splint 35 of control, and then adapt to the curved surface toughened glass with corresponding thickness dimension.

The right end face of the clamping plate 224 is provided with the reinforcing rib 22a, the reinforcing rib 22a is of an inclined structure, the upper end of the reinforcing rib 22a is connected with the lower end face of the stop lever 222, the reinforcing rib 22a plays a role in strengthening and stabilizing the stop lever 222 and the clamping plate 224 in a 90-degree state, the stop lever 222 in a vertical state is supported in an auxiliary mode, and the clamping degree of curved surface toughened glass is improved.

The upper end face of the abutting block 22c is provided with a rubber layer, the rubber layer plays a role in buffering and damping curved surface toughened glass, the probability that scratches are caused on the outer surface of the curved surface toughened glass by the upper end face of the abutting block 22c is reduced, and the appearance quality of the curved surface toughened glass is further effectively guaranteed.

The inboard end of curved surface splint 35 from the past backward equidistance be provided with elasticity ball 351, elasticity ball 351 is from last down equidistance and arranges, elasticity ball 351 can reduce the friction between curved surface splint 35 and the curved surface toughened glass contact site to improve curved surface splint 35 and paste in the smooth degree of curved surface toughened glass downward motion process, and then reduce the probability that mar appears in curved surface toughened glass surface centre gripping position, also can play certain buffering cushioning effect to curved surface toughened glass's upper end simultaneously.

When the device works, according to the thickness of curved toughened glass to be conveyed, the distance rod 341 is manually rotated in advance to move the movable plate 342 in opposite directions, meanwhile, the left end of the distance rod presses the telescopic square rod 34d to do contraction movement towards the right, the movable plate 342 drives the curved clamping plates 35 to do synchronous movement, the distance between the curved clamping plates 35 can be accurately controlled according to the scale marks on the telescopic square rod 34d, then the nut is screwed to fix the distance rod 341, further, the curved clamping plates 35 are fixed and do not move any more, the existing distance is kept, the curved toughened glass is vertically placed in the arc grooves on the curved clamping seats 22 in a manual mode, the lower end of the curved toughened glass is placed at the upper end of the bottom plate 24, the curved toughened glass presses the bottom plate 24 downwards, the interlayer springs 23 move downwards to do contraction movement until the curved toughened glass is in a compressed state, and the buffer and shock absorption effects are achieved, in the process, the curved surface toughened glass presses the pressing plate 241 to the outer side, the inner side surface of the pressing plate 241 is attached to the surface of the curved surface toughened glass all the time, the pressing plate 241 enables the first telescopic rod 242 to do contraction movement, after the curved surface toughened glass is placed, the pressing plate 241 is attached to the surface of the curved surface toughened glass under the action of the first telescopic rod 242 to play an auxiliary fixing role for the curved surface toughened glass, meanwhile, the device can adapt to curved surface toughened glass with other thickness sizes, the flat plate 223 is rotated upwards in a manual mode, the flat plate 223 with the blocking rod 222 and the blocking plate 224 do synchronous movement through the rotating shaft 221, when the left end of the blocking plate 224 is rotated to be in a horizontal state and is positioned above the through hole, the blocking pin 226 is inserted into the through hole in a manual mode, the blocking pin 226 plays a limiting role for the blocking plate 224, the phenomenon that the blocking plate rotates downwards is avoided, meanwhile, the stop lever 222 can only rotate upwards by 90 degrees and keep a vertical state, the abutting block 22c is tightly attached to the outer surface of the curved toughened glass under the action of the second telescopic rod 22b, the abutting block 22c provides inward abutting force for the curved toughened glass, the abutting force in the opposite left and right directions plays roles of auxiliary fixing and limiting for the curved glass, the vertical state is kept, the electric push rod 33 pushes the connecting plate 34 downwards, the connecting plate 34 drives the curved clamping plate 35 to move synchronously until the curved clamping plate 35 completely clamps the curved toughened glass, the upper end and the lower end of the curved toughened glass are clamped and fixed, then the electric slide block 32 and the belt conveyor 21 are started simultaneously, and the curved toughened glass moves to the corresponding position integrally.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a transfer device is made in curved surface toughened glass production, includes place platform (1), lower clamping device (2) and go up clamping device (3), its characterized in that: a lower clamping device (2) is arranged on the upper end face of the ground table (1), and an upper clamping device (3) is arranged above the lower clamping device (2);

the lower clamping device (2) comprises a belt conveyor (21), a curved clamping seat (22), an interlayer spring (23) and a bottom plate (24), wherein the belt conveyor (21) is installed on the upper end face of the ground table (1), the curved clamping seat (22) is installed on the belt conveyor (21) in a sliding fit mode at equal intervals from left to right, an arc groove is formed in the upper end face of the curved clamping seat (22), and the interlayer spring (23) is installed at the bottom of the arc groove at equal intervals from front to back; the upper end of the interlayer spring (23) is connected with the lower end face of the bottom plate (24), the bottom plate (24) is positioned in the arc groove, and the left end and the right end of the bottom plate (24) are in sliding fit with the arc groove;

go up clamping device (3) including type of falling U frame (31), electronic slider (32), electric putter (33), connecting plate (34) and curved surface splint (35), the up end at ground platform (1) is installed in type of falling U frame (31), electronic slider (32) are installed to the interior lower terminal surface of type of falling U frame (31) through sliding fit from a left side to right equidistance, electric putter (33) are installed to the lower terminal surface front and back symmetry of electric slider (32), the lower terminal surface of electric putter (33) links to each other with the up end of connecting plate (34), curved surface splint (35) are installed to the lower terminal surface bilateral symmetry of connecting plate (34), curved surface splint (35) are located curved surface cassette (22) directly over.

2. The transfer device for producing and manufacturing curved toughened glass according to claim 1, wherein: the top bilateral symmetry of bottom plate (24) be provided with clamp plate (241), be sliding fit between clamp plate (241) and the arc groove, telescopic link (242) are installed No. one in the outside of clamp plate (241), the outside end of telescopic link (242) links to each other with the inner bottom wall of mounting groove, mounting groove sets up on the arc inslot lateral wall.

3. The transfer device for producing and manufacturing curved toughened glass according to claim 1, wherein: the upper end face bilateral symmetry of curved surface cassette (22) seted up rectangular groove, rectangular groove is equidistance from the past backward and arranges, pivot (221) are installed through sliding fit mode in the rectangular groove, install pin (222) on pivot (221), the outside end of pin (222) is towards the curved surface center of curved surface cassette (22), the outside end face of pin (222) links to each other with the medial surface of dull and stereotyped (223), the below of pin (222) is provided with screens board (224), the contained angle between screens board (224) and pin (222) is 90, install on pivot (221) the upper end of screens board (224), outside end face fore-and-aft symmetry of curved surface cassette (22) installs upright piece (225), the through-hole has been seted up on upright piece (225), install bayonet lock (226) through sliding fit mode in the through-hole.

4. The transfer device is manufactured in curved surface toughened glass production of claim 3, characterized in that: the right end face of the clamping plate (224) is provided with a reinforcing rib (22a), the reinforcing rib (22a) is of an inclined structure, and the upper end of the reinforcing rib (22a) is connected with the lower end face of the stop lever (222).

5. The transfer device is manufactured in curved surface toughened glass production of claim 3, characterized in that: the upper end face of the flat plate (223) is symmetrically provided with a second telescopic rod (22b) in front and back, the upper end face of the second telescopic rod (22b) is connected with the lower end face of the abutting block (22c), and the upper end face of the abutting block (22c) is of a curved surface structure.

6. The transfer device is manufactured in curved surface toughened glass production of claim 5, characterized in that: the upper end surface of the abutting block (22c) is provided with a rubber layer.

7. The transfer device for producing and manufacturing curved toughened glass according to claim 1, wherein: elastic balls (351) are arranged at the inner side end of the curved surface clamping plate (35) in an equidistance from front to back, and the elastic balls (351) are arranged in an equidistance from top to bottom.

8. The transfer device for producing and manufacturing curved toughened glass according to claim 1, wherein: the left end face of connecting plate (34) seted up the round hole, install distance pole (341) through sliding fit mode in the round hole, be provided with two sections screw threads opposite in screw thread direction on distance pole (341), movable plate (342) link to each other with distance pole (341) through the screw thread mode, be the sliding fit mode between the upper end of movable plate (342) and connecting plate (34), the lower extreme of movable plate (342) links to each other with the up end of curved surface splint (35), the nut is installed through the screw thread fit mode to the right-hand member of distance pole (341), the left end face of nut is hugged closely with the right-hand member face of connecting plate (34).

9. The transfer device is manufactured to curved surface toughened glass according to claim 8, characterized in that: the front side of the distance rod (341) is provided with a telescopic square rod (34d), the left end of the telescopic square rod (34d) is in sliding fit with the left end of the distance rod (341), the front end face of the telescopic square rod (34d) is provided with scale marks, and the right end face of the telescopic square rod (34d) is connected with the left end face of the connecting plate (34).

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