1. The utility model provides a based on efficient toughened glass conveyer which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the supporting assembly (100) comprises a supporting frame (101), U-shaped frames (102) arranged on two sides of the bottom of the supporting frame (101), universal wheels (103) arranged at the bottom of the U-shaped frames (102), and a handle (104) arranged on the right side of the supporting frame (101);

the overturning component (200) is arranged inside the supporting frame (101) and comprises a moving piece (201) arranged on the left side inside the supporting frame (101), a supporting block (202) arranged at the top of the moving piece (201), a mounting groove (203) arranged at the top of the supporting block (202) and an overturning piece (204) arranged inside the mounting groove (203);

the bearing assembly (300) is arranged at the top of the overturning assembly (200) and comprises a connecting block (301) arranged at the top of the overturning part (204), an adjusting part (302) arranged at the top of the connecting block (301), a bearing plate (303) arranged at the top of the adjusting part (302) and a groove (M) arranged on the side surface of the bearing plate (303); and the number of the first and second groups,

spacing subassembly (400), set up in accept the both sides of board (303), including set up in accept driving piece (401) of board (303) side, set up in accept board (303) bottom and with driving piece (401) complex driving medium (402), set up in U template (403) in the driving medium (402) outside, set up in cardboard (404) of U template (403) one side, and set up in accept board (303) side and with U template (403) complex limiting plate (405).

2. The efficient tempered glass transportation device of claim 1, wherein: the movable type automobile seat further comprises a placing assembly (500) arranged on the right side of the movable piece (201), and the placing assembly comprises a jacking piece (501) arranged inside the supporting frame (101), a placing frame (502) arranged on the top of the supporting frame (101), and a baffle (503) arranged on the right side of the top of the supporting frame (101).

3. The efficient tempered glass transportation device of claim 2, wherein: jacking piece (501) including set up in the inside movable frame (501a) of carriage (101), set up in spacing frame (501b) at movable frame (501a) top, and set up in first push rod (501c) of movable frame (501a) bottom, the bottom of first push rod (501c) set up in the top of U type frame (102).

4. The efficient tempered glass transportation device of claim 2 or 3, wherein: the driving piece (401) comprises a movable block (401a) arranged on the side surface of the bearing plate (303) and positioned on two sides of the groove (M), a connecting rod (401b) arranged on one side of the movable block (401a) and positioned at the bottom of the bearing plate (303), and a limiting piece (401c) arranged at the bottom of the bearing plate (303) and matched with the connecting rod (401 b).

5. The efficient tempered glass transportation device of claim 4, wherein: the transmission part (402) comprises a fixed toothed plate (402a) arranged on one side of the connecting rod (401b), a first gear (402b) arranged at the bottom of the bearing plate (303) and matched with the fixed toothed plate (402a), a second gear (402c) arranged at the bottom of the first gear (402b), and a connecting ring (402d) arranged on the outer side of the second gear (402c), one side of the connecting ring (402d) is fixedly matched with the U-shaped plate (403), and a rack (402d-a) matched with the second gear (402c) is arranged inside the connecting ring (402 d).

6. The efficient tempered glass transportation device of claim 5, wherein: the limiting part (401c) comprises two groups of limiting blocks (401c-a) which are arranged at the bottom of the bearing plate (303) and matched with the connecting rod (401b), a convex block (401c-b) which is arranged on the side surface of the connecting rod (401b) and is positioned between the two groups of limiting blocks (401c-a), and a reset spring (401c-c) which is arranged on the side surface of the movable block (401a), wherein one end of the reset spring (401c-c) is fixedly matched with the limiting blocks (401 c-a).

7. The efficient tempered glass transportation device of claim 5 or 6, wherein: the movable piece (201) comprises a movable plate (201a) arranged inside the supporting frame (101) and a second push rod (201b) arranged on the side face of the movable plate (201a), and one end of the second push rod (201b) is fixedly matched with the inner wall of the supporting frame (101).

8. The efficient tempered glass transportation device of claim 5 or 6, wherein: upset piece (204) including set up in inside worm (204a) of mounting groove (203), set up in servo motor (204b) of worm (204a) one end, set up in inside and rather than normal running fit's sector pinion rack (204c) of mounting groove (203), sector pinion rack (204c) with worm (204a) cooperation, sector pinion rack (204c) set up in the bottom of connecting block (301).

9. The efficient tempered glass transportation device of claim 8, wherein: the adjusting piece (302) comprises a third push rod (302a) arranged at the top of the connecting block (301), a connecting plate (302b) arranged at the top end of the third push rod (302a), and a fixing block (302c) arranged at the top of the connecting plate (302b) and in rotating fit with the connecting plate, wherein the top of the fixing block (302c) is fixedly matched with the bearing plate (303).

10. The efficient tempered glass transportation device of claim 9, wherein: adjusting part (302) still including set up in first articulated seat (302d) at connecting plate (302b) top, set up in extensible member (302e) at first articulated seat (302d) top, and set up in the articulated seat (302f) of second of accepting board (303) bottom, the one end of extensible member (302e) with the cooperation of the articulated seat (302f) of second.

Background

Toughened glass belongs to safety glass, toughened glass is actually a prestressed glass, for improving glass's intensity, generally use chemical or physical method, form compressive stress at the glass surface, glass offsets surface stress at first when bearing external force, thereby bearing capacity has been improved, reinforcing glass self anti wind pressure nature, cold summer heat nature, impact etc., notice and distinguish with the glass steel, toughened glass carries through more manual work when carrying out short distance transportation among the prior art, this kind of mode need consume more manpower and time, and stability is relatively poor in the transportation, take place easily and empty or drop, cause the toughened glass to damage.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the prior art based on an efficient tempered glass transportation apparatus.

Therefore, the invention aims to solve the problems that the transportation of the toughened glass in the prior art needs to consume more manpower and material resources and has lower safety.

In order to solve the technical problems, the invention provides the following technical scheme: the efficient toughened glass transportation device comprises a supporting assembly, a lifting mechanism and a lifting mechanism, wherein the supporting assembly comprises a supporting frame, section frames arranged on two sides of the bottom of the supporting frame, universal wheels arranged at the bottom of the section frames, and a handle arranged on the right side of the supporting frame; the overturning component is arranged in the supporting frame and comprises a moving part arranged on the left side in the supporting frame, a supporting block arranged at the top of the moving part, an installation groove arranged at the top of the supporting block and an overturning part arranged in the installation groove; the bearing assembly is arranged at the top of the overturning assembly and comprises a connecting block arranged at the top of the overturning part, an adjusting part arranged at the top of the connecting block, a bearing plate arranged at the top of the adjusting part and a groove arranged on the side surface of the bearing plate; and, spacing subassembly set up in accept the both sides of board, including set up in accept the driving piece of board side, set up in accept board bottom and with driving piece complex driving medium, set up in the template in the driving medium outside, set up in the cardboard of template one side, and set up in accept board side and with template complex limiting plate.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: still including placing the subassembly, set up in the right side of moving part, including set up in the inside jacking piece of carriage, set up in the frame of placing at carriage top, and set up in the baffle on carriage top right side.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the jacking piece including set up in the inside movable frame of carriage, set up in the spacing frame at movable frame top, and set up in the first push rod of movable frame bottom, the bottom of first push rod set up in the top of type frame.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the driving piece is including set up in accept the board side and be located the movable block of recess both sides, set up in movable block one side just is located accept the connecting rod of board bottom, set up in accept board bottom and with connecting rod complex locating part.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the driving medium including set up in the fixed tooth plate of connecting rod one side, set up in accept the board bottom and with fixed tooth plate complex first gear, set up in the second gear of first gear bottom, and set up in the go-between in the second gear outside, one side of go-between with template fixed coordination, the inside of go-between be provided with second gear complex rack.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the locating part including set up in accept the board bottom and with two sets of stoppers of connecting rod complex, set up in the connecting rod side just is located two sets of lug between the stopper, and set up in the reset spring of movable block side, reset spring's one end with the stopper fixed coordination.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the movable part is including set up in the inside fly leaf of carriage, and set up in the second push rod of fly leaf side, the one end of second push rod with the inner wall fixed coordination of carriage.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: upset piece including set up in the inside worm of mounting groove, set up in the servo motor of worm one end, set up in inside and rather than normal running fit's the sector pinion rack of mounting groove, the sector pinion rack with the worm cooperation, the sector pinion rack set up in the bottom of connecting block.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the adjusting part comprises a third push rod arranged at the top of the connecting block, a connecting plate arranged at the top end of the third push rod, and a fixing block arranged at the top of the connecting plate and in running fit with the connecting plate, and the top of the fixing block is fixedly matched with the bearing plate.

As a preferable aspect of the present invention, the high-efficiency toughened glass transportation apparatus includes: the regulating part is still including set up in the first articulated seat at connecting plate top, set up in the extensible member at first articulated seat top, and set up in the articulated seat of second of accepting the board bottom, the one end of extensible member with the cooperation of the articulated seat of second.

The invention has the beneficial effects that: according to the invention, the toughened glass can be moved through the arrangement of the turnover assembly and the bearing assembly, so that the toughened glass can be more conveniently placed on the supporting assembly without a large amount of manual carrying, the labor cost is greatly reduced, and meanwhile, the limiting assembly plays a limiting effect in the movement process of the toughened glass and is prevented from falling off from the bearing assembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is an overall structural view of a tempered glass transportation device based on high efficiency.

Fig. 2 is a structural view of a support assembly based on an efficient tempered glass transportation device.

Fig. 3 is a structural view of a jack based on an efficient tempered glass transportation device.

Fig. 4 is a connection structure diagram of the turnover assembly and the receiving assembly based on the efficient toughened glass transportation device.

Fig. 5 is another perspective view of a receiving assembly based on an efficient tempered glass transportation device.

Fig. 6 is a connecting structure diagram of a limiting assembly and a bearing plate based on an efficient toughened glass conveying device.

Fig. 7 is a structural view of a driving member based on an efficient tempered glass transportation apparatus.

Fig. 8 is a structural view of a transmission member based on an efficient tempered glass transportation device.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, 2, 4, 5 and 6, for a first embodiment of the present invention, the embodiment provides an efficient toughened glass transportation device, which includes a support assembly 100, a turnover assembly 200, a receiving assembly 300 and a limiting assembly 400, wherein toughened glass is moved onto the support assembly 100 by the cooperation between the turnover assembly 200 and the receiving assembly 300, so that a plurality of toughened glass can be conveniently and simultaneously transported without a large amount of labor, thereby greatly reducing labor cost, and meanwhile, the toughened glass is limited by the limiting assembly 400, and is prevented from falling off from the receiving assembly 300.

Specifically, supporting component 100, including carriage 101, set up in the U type frame 102 of carriage 101 bottom both sides, set up in the universal wheel 103 of U type frame 102 bottom to and set up in the handle 104 on carriage 101 right side, make the device only need one to two staff to operate through setting up of universal wheel 103 and handle 104, make toughened glass's transportation more convenient, very big reduction the cost of manpower.

Preferably, the turnover assembly 200 is arranged inside the supporting frame 101, and comprises a movable member 201 arranged on the left side inside the supporting frame 101, a supporting block 202 arranged on the top of the movable member 201, a mounting groove 203 arranged on the top of the supporting block 202, and a turnover piece 204 arranged inside the mounting groove 203, wherein the supporting block 202 and the turnover piece 204 can move left and right inside the supporting frame 101 through the movable member 201, so that the position of placing the toughened glass can be conveniently adjusted, and the quantity and accuracy of placing the toughened glass are improved.

Preferably, the receiving assembly 300 is disposed at the top of the turnover assembly 200, and includes a connecting block 301 disposed at the top of the turnover member 204, an adjusting member 302 disposed at the top of the connecting block 301, a receiving plate 303 disposed at the top of the adjusting member 302, and a groove M disposed at the side of the receiving plate 303, wherein the angle and the telescopic distance of the receiving plate 303 are adjusted by the adjusting member 302, so that the tempered glass can be vertically stacked on the top of the supporting frame 101 more conveniently, and the size and the depth of the groove M can be adjusted according to actual use conditions, thereby avoiding the collision between the receiving plate 303 and the edge of the supporting frame 101 during the process of placing the tempered glass, and causing damage of the tempered glass.

Preferably, the limiting component 400 is arranged on two sides of the bearing plate 303, and comprises a driving part 401 arranged on the side of the bearing plate 303, a transmission part 402 arranged at the bottom of the bearing plate 303 and matched with the driving part 401, a U-shaped plate 403 arranged on the outer side of the transmission part 402, a clamping plate 404 arranged on one side of the U-shaped plate 403, and a limiting plate 405 arranged on the side of the bearing plate 303 and matched with the U-shaped plate 403, when the tempered glass is placed on the bearing plate 303, the driving part 401 is pressed by the self weight of the tempered glass, the driving part 401 and the transmission part 402 drive the U-shaped plate 403 and the clamping plate 404 to move inwards, so that the tempered glass is extruded and limited by the clamping plate 404, and is prevented from falling from the top of the bearing plate 303 in the processes of overturning and moving.

When the toughened glass conveying device is used, toughened glass to be moved is moved to the bearing plate 303, the toughened glass is generally vertically stacked or laminated on a higher plate, the angle and the position of the bearing plate 303 are adjusted through the adjusting piece 302 at the moment, so that a worker can place the toughened glass on the bearing plate 303 with small strength, then the bearing plate 303 and the toughened glass move towards the right side through the matching between the adjusting piece 302 and the overturning piece 204, at the moment, the driving piece 401 is pressed through the self weight of the toughened glass, the U-shaped plate 403 and the clamping plate 404 are driven to move towards the inner side through the driving piece 401 and the driving piece 402, so that the toughened glass is extruded and limited through the clamping plate 404, the toughened glass is prevented from falling from the top of the bearing plate 303 in the overturning and moving processes, and then the toughened glass is vertically stacked on the supporting frame 101 through the matching between the moving piece 201, the adjusting piece 302 and the overturning piece 204 again, after stacking, the device can be operated by only one or two workers through the arrangement of the universal wheels 103 and the handles 104, so that the toughened glass can be transported more conveniently, and the labor cost is greatly reduced.

Example 2

Referring to fig. 1, 3, 7 and 8, a second embodiment of the present invention is based on the previous embodiment.

Specifically, still including placing subassembly 500, set up in the right side of moving part 201, including setting up in the inside jacking piece 501 of carriage 101, setting up in the frame 502 of placing at carriage 101 top to and set up in the baffle 503 on carriage 101 top right side, carry on spacingly to toughened glass through placing frame 502, make placing of monolithic toughened glass more firm, then support toughened glass through baffle 503, avoid it to take place to empty in the transportation.

Preferably, the jacking piece 501 comprises a movable frame 501a arranged inside the supporting frame 101, a limiting frame 501b arranged on the top of the movable frame 501a, and a first push rod 501c arranged at the bottom of the movable frame 501a, the bottom end of the first push rod 501c is arranged at the top of the U-shaped frame 102, the toughened glass is further limited and supported by the limiting frame 501b, so that the installation of the toughened glass is more stable, and when the toughened glass is placed on the limiting frame 501b, the movable frame 501a and the limit frame 501b are entirely lifted up by the first push rod 501c, so that the tempered glass is separated from the bearing plate 303, the toughened glass can be completely placed in the limiting frame 501b, the toughened glass is prevented from deviating in the process of resetting the bearing plate 303, after the bearing plate 303 is reset, and then the movable frame 501a and the limiting frame 501b are reset by the first push rod 501c, so that the tempered glass is more stably placed.

Preferably, the driving member 401 includes a movable block 401a disposed on the side surface of the receiving plate 303 and located on two sides of the groove M, a connecting rod 401b disposed on one side of the movable block 401a and located at the bottom of the receiving plate 303, and a limiting member 401c disposed at the bottom of the receiving plate 303 and matched with the connecting rod 401b, and the movable block 401a and the connecting rod 401b are limited by the limiting member 401c, so that the situation that the movement of the movable block 401a and the connecting rod 401b is deviated in the moving process and the limiting effect of the tempered glass is affected is avoided.

Preferably, the transmission member 402 includes a fixed toothed plate 402a disposed at one side of the connecting rod 401b, a first gear 402b disposed at the bottom of the receiving plate 303 and engaged with the fixed toothed plate 402a, a second gear 402c disposed at the bottom of the first gear 402b, and a connecting ring 402d disposed at the outer side of the second gear 402c, one side of the connecting ring 402d is fixedly engaged with the U-shaped plate 403, a rack 402d-a engaged with the second gear 402c is disposed inside the connecting ring 402d, when the movable block 401a and the connecting rod 401b move, the first gear 402b is driven to rotate by the fixed toothed plate 402a, the second gear 402c is driven to rotate by the first gear 402b, the connecting ring 402d is driven to move inwards by the second gear 402c and the rack 402d-a, that is, the clamping plate 404 is driven to move inwards by the connecting ring 402d and the U-shaped plate 403 to press and limit the tempered glass, and the bearing plate 303 is prevented from falling off in the process of overturning movement.

Preferably, the position-limiting member 401c comprises two position-limiting blocks 401c-a disposed at the bottom of the bearing plate 303 and engaged with the connecting rod 401b, and a protrusion 401c-b disposed at the side of the connecting rod 401b and located between the two position-limiting blocks 401c-a, and a return spring 401c-c arranged on the side surface of the movable block 401a, one end of the return spring 401c-c is fixedly matched with the limit block 401c-a, the connecting rod 401b is limited by the limiting block 401c-a, so that the deviation of the connecting rod in the process of moving left and right is avoided, meanwhile, the travel of the connecting rod 401b is limited by the bumps 401c-b, so that the phenomenon that the stability of the toughened glass is influenced by too much movement of the connecting rod is avoided, then, the return springs 401c-c push the movable block 401a to return after the tempered glass is placed, so that the next use of the tempered glass is facilitated.

When the toughened glass conveying device is used, toughened glass to be moved is moved onto the bearing plate 303, the toughened glass is generally vertically stacked or laminated on a higher plate, the angle and the position of the bearing plate 303 are adjusted through the adjusting piece 302, so that a worker can place the toughened glass on the bearing plate 303 with small strength, then the bearing plate 303 and the toughened glass move towards the right side through the matching between the adjusting piece 302 and the turnover piece 204, at the moment, the movable block 401a and the connecting rod 401b are pressed to move through the self weight of the toughened glass, the first gear 402b is driven to rotate through the fixed toothed plate 402a, the second gear 402c is driven to rotate through the first gear 402b, the connecting ring 402d is driven to move towards the inner side through the second gear 402c and the rack 402d-a, namely, the clamping plate 404 is driven to move towards the inner side through the connecting ring 402d and the U-shaped plate 403, the toughened glass is extruded and limited, so that the toughened glass is prevented from falling off from the bearing plate 303 in the process of turning and moving, the connecting rod 401b is limited by the limiting blocks 401c-a, the toughened glass is prevented from shifting in the process of moving left and right, meanwhile, the stroke of the connecting rod 401b is limited by the bumps 401c-b, the phenomenon that the toughened glass moves too much to influence the stability of the toughened glass is avoided, the toughened glass can be placed on the limiting frame 501b, the toughened glass is limited and supported by the limiting frame 501b, so that the toughened glass is more stably installed, when the toughened glass is placed on the limiting frame 501b, the movable frame 501a and the limiting frame 501b are wholly jacked upwards by the first push rod 501c, so that the toughened glass is separated from the bearing plate 303, the toughened glass can be completely placed in the limiting frame 501b, and the toughened glass is prevented from shifting in the process of resetting of the bearing plate 303, at the moment, the reset springs 401c-c push the movable block 401a to reset after the tempered glass is placed, so that the tempered glass can be conveniently used next time, and after the bearing plate 303 resets, the movable frame 501a and the limiting frame 501b are reset through the first push rod 501c, so that the tempered glass is placed more stably.

Example 3

Referring to fig. 4 and 5, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the movable member 201 includes a movable plate 201a disposed inside the supporting frame 101 and a second push rod 201b disposed on a side of the movable plate 201a, one end of the second push rod 201b is fixedly engaged with an inner wall of the supporting frame 101, when the tempered glass is placed on the receiving plate 303 and the position of the receiving plate 303 is adjusted, the movable plate 201a is pushed by the second push rod 201b to move left and right, so that the position of the receiving plate 303 can be adjusted, and the tempered glass can be conveniently moved and placed.

Preferably, upset piece 204 is including setting up in the inside worm 204a of mounting groove 203, set up in the servo motor 204b of worm 204a one end, set up in mounting groove 203 inside and rather than normal running fit's sector pinion rack 204c, sector pinion rack 204c and the cooperation of worm 204a, sector pinion rack 204c sets up in the bottom of connecting block 301, drive worm 204a through servo motor 204b and rotate, rethread worm 204a drives sector pinion rack 204c and rotates, can adjust the position and the angle of accepting board 303, further improve toughened glass's the efficiency of taking.

Preferably, the adjusting part 302 comprises a third push rod 302a arranged at the top of the connecting block 301, a connecting plate 302b arranged at the top end of the third push rod 302a, and a fixing block 302c arranged at the top of the connecting plate 302b and rotationally matched with the connecting plate 302b, the top of the fixing block 302c is fixedly matched with the bearing plate 303, the bearing plate 303 is driven by the third push rod 302a to move in a telescopic manner, the stroke of the bearing plate 303 is further improved, the toughened glass can be placed in a farther limiting frame 501b, and therefore the stacking quantity of the toughened glass is increased.

Preferably, the adjusting member 302 further comprises a first hinge seat 302d disposed at the top of the connecting plate 302b, a telescopic member 302e disposed at the top of the first hinge seat 302d, and a second hinged seat 302f arranged at the bottom of the bearing plate 303, one end of the telescopic piece 302e is matched with the second hinged seat 302f, the toughened glass is generally required to be placed in an inclined way, the toughened glass is prevented from falling when being vertically placed, one side of the bearing plate 303 is pushed by the telescopic piece 302e to incline, and at this time, a certain angle is formed between the bearing plate 303 and the supporting frame 101, thereby convenient direct slope with toughened glass is placed, need not the manual work and controls and empty toughened glass again, very big improvement toughened glass place and conveying efficiency, carry on spacingly to extensible member 302e through first articulated seat 302d and the articulated seat 302f of second this moment, avoid it to take place to bend at flexible in-process.

When the toughened glass taking device is used, toughened glass to be moved is moved onto the bearing plate 303, the toughened glass is generally vertically stacked or laminated on a higher plate, the movable plate 201a is pushed by the second push rod 201b to move left and right, so that the position of the bearing plate 303 can be adjusted, the toughened glass is convenient to move and place, the worm 204a is driven by the servo motor 204b to rotate, the sector toothed plate 204c is driven by the worm 204a to rotate, the position and the angle of the bearing plate 303 can be adjusted, the toughened glass taking efficiency is further improved, at the moment, the movable block 401a and the connecting rod 401b are pressed to move by the self weight of the toughened glass, the first gear 402b is driven by the fixed toothed plate 402a to rotate, the second gear 402c is driven by the first gear 402b to rotate, and the connecting ring 402d is driven by the second gear 402c and the toothed bar 402d-a to move towards the inner side, the clamping plate 404 is driven to move inwards by the connecting ring 402d and the U-shaped plate 403 to extrude and limit the toughened glass, so that the toughened glass is prevented from falling off from the bearing plate 303 in the process of turning and moving, the connecting rod 401b is limited by the limiting blocks 401c-a at the moment, the deviation of the connecting rod 401b in the process of moving left and right is avoided, meanwhile, the stroke of the connecting rod 401b is limited by the bumps 401c-b, the phenomenon that the toughened glass is moved too much to influence the stability of the toughened glass is avoided, then the bearing plate 303 is driven to move in a telescopic mode by the third push rod 302a, the stroke of the bearing plate 303 is further improved, the toughened glass can be placed in a farther limiting frame 501b, the stacking quantity of the toughened glass is increased, then one side of the bearing plate 303 is pushed to incline by the telescopic piece 302e, and a certain angle is formed between the bearing plate 303 and the supporting frame 101, thereby conveniently and directly placing the toughened glass in an inclined way, the toughened glass is not required to be manually held and then poured, the placing and transporting efficiency of the toughened glass is greatly improved, at the moment, the telescopic piece 302e is limited through the first hinged seat 302d and the second hinged seat 302f, the toughened glass is prevented from being bent in the telescopic process, at the moment, the toughened glass can be placed on the limiting frame 501b, the toughened glass is limited and supported through the limiting frame 501b, the installation of the toughened glass is more stable, when the toughened glass is placed on the limiting frame 501b, the movable frame 501a and the limiting frame 501b are wholly jacked upwards through the first push rod 501c, so that the toughened glass is separated from the bearing plate 303, the toughened glass can be completely placed in the limiting frame 501b, the toughened glass is prevented from being deviated in the resetting process of the bearing plate 303, at the moment, the movable block 401a is pushed to reset through the reset springs 401c-c after the toughened glass is placed, thereby make things convenient for its next use, accept the board 303 back that resets, rethread first push rod 501c resets adjustable frame 501a and spacing frame 501b, make placing of toughened glass more firm, then above-mentioned operation can reset the repeated toughened glass's that carries on removal of accepting board 303 otherwise, stack the completion back, setting up through universal wheel 103 and handle 104 makes the device only need one to two staff to operate, make toughened glass's transportation more convenient, very big reduction the cost of manpower, wherein the side of fly leaf 201a and adjustable frame 501a all is provided with the slider, and the inner wall of carriage 101 is equipped with rather than sliding fit's spout, play spacing effect, avoid it to take place the skew at the in-process of removal.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.