CN213415481U - Hot-pressing feeding conveying device for molded door panels - Google Patents

Abstract

The utility model discloses a hot pressing feeding and conveying device for a molded door panel, which comprises a frame, a conveying mechanism, a supporting mechanism, a panel bracket, a lifting adjusting mechanism and a guiding mechanism; the conveying mechanism and the supporting mechanism are positioned at the top of the rack; the panel bracket is positioned at the bottom of the frame and is positioned below the supporting mechanism; the lifting adjusting mechanism and the guiding mechanism are positioned at one end of the frame; the frame bearing and conveying mechanism, the supporting mechanism, the panel bracket, the lifting adjusting mechanism and the guiding mechanism are arranged on the frame, and the fixing plate I is movably connected with the guide rail and is fixedly connected with the synchronous belt; fixed arms I are arranged at two ends of the fixed plate I; one side of the fixed arm I is provided with a guide block; the cylinder I is fixed on the other side of the fixed arm I; a fixing plate II is fixedly arranged at the top shaft end of the air cylinder I; i top of fixed arm is equipped with fixed plate III, is equipped with a plurality of vacuum generator on the fixed plate III, the utility model discloses can replace the manual work to carry out the stable material loading of panel to a plurality of heated press mold.

Description

Hot-pressing feeding conveying device for molded door panels

Technical Field

The utility model belongs to the technical field of the processing of mould pressing door panel, in particular to mould pressing door panel hot pressing material conveying device.

Background

Manual feeding is generally adopted in the feeding process of the existing molded door panel during hot-press forming;

1) not only occupies labor force, but also greatly influences the working procedure by the factors of manpower;

2) the feeding degree is easily influenced by different manual force application sizes during feeding, so that the door plate cannot completely enter the mold at one time due to small stress or the panel is out of the range of the mold due to excessive force application;

3) in a traditional feeding mode, a panel bracket is a fixed frame, and as the feeding of the panel is reduced continuously, workers need to bend down to pick up the panel, occupational diseases and the like can be caused by long-time working, and further the health of the body is affected;

a stable panel feeding mechanism is therefore required.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a mould pressing door panel hot pressing material loading conveyor, the utility model discloses can replace the manual work to carry out the stable material loading of panel to a plurality of heated press mold.

In order to realize the purpose, the utility model discloses a technical scheme is:

a hot pressing feeding conveying device for a molded door panel comprises a rack, a conveying mechanism, a supporting mechanism, a panel bracket, a lifting adjusting mechanism and a guiding mechanism; the conveying mechanism and the supporting mechanism are positioned at the top of the rack; the panel bracket is positioned at the bottom of the frame and is positioned below the supporting mechanism; the lifting adjusting mechanism and the guiding mechanism are positioned at one end of the frame; the frame bears transport mechanism, supporting mechanism, panel bracket, lift adjustment mechanism, guide mechanism.

The frame top is equipped with the guide rail, and the bottom is equipped with backup pad I, and frame one end is equipped with guide post I.

The conveying mechanism comprises a synchronous belt, a synchronous wheel and a motor I; the motor I is fixed on a supporting leg at one end of the rack, and an output shaft of the motor I is fixedly connected with a synchronizing wheel and is fixed on a transverse plate of the rack through a fixed seat; the other end of the frame is also fixedly provided with a synchronizing wheel; the synchronous belt is connected with synchronous wheels at two ends of the rack.

The supporting mechanism comprises a fixing plate I, a cylinder I, a fixing plate II, a fixing plate III and an adsorption mechanism; the fixing plate I is movably connected with the guide rail and is fixedly connected with the synchronous belt; fixed arms I are arranged at two ends of the fixed plate I; one side of the fixed arm I is provided with a guide block; the cylinder I is fixed on the other side of the fixed arm I; a fixing plate II is fixedly arranged at the top shaft end of the air cylinder I; the top end of the fixed arm I is provided with a fixed plate III, and the fixed plate III is provided with a plurality of vacuum generators; the fixed plate II is provided with a plurality of adsorption mechanisms and is connected with a vacuum generator through an air pipe, and two ends of the fixed plate II are provided with guide shafts I; the guide shaft I penetrates through the guide block; the adsorption mechanism comprises a fixed frame, a fixed block, a spring I and an adsorption tube; the fixing frame is fixed on the fixing plate II; the fixed frame is provided with a guide groove; the upper end and the lower end of the fixed block are respectively provided with a guide shaft II; one side of the fixed block is provided with a guide strip, and the other side of the fixed block is provided with a buckle and a bolt buckle; one end of the buckle and one end of the bolt buckle are movably connected with the fixing block through a pin shaft; the spring I is sleeved with a guide shaft II at the top end of the fixed block; one end of the spring I is in top contact with the fixed block, and the other end of the spring I is in top contact with the fixed frame; the guide strip is arranged in the guide groove; the adsorption tube is connected with a vacuum generator through an air tube; the adsorption tube is provided with a snap ring; the adsorption pipe orifice is provided with a rubber adsorption disc.

The lifting adjusting mechanism comprises a motor II, a screw I, a supporting plate II and a screw II; the motor II is fixed on the top of a supporting leg at one end of the rack; the screw I is fixed on the support leg of the rack through a fixed seat, and one end of the screw I is provided with a conical gear; two ends of the screw II are respectively and transversely fixed on the two supporting legs through fixing seats, and conical gears are arranged at the two ends of the screw II; an output shaft of the motor II is fixedly connected with one lead screw I; the conical gear on the screw I is meshed with the conical gears at two ends of the screw II; the support plate II is positioned between the two support legs of the frame; the screw I and the guide column I penetrate through the support plate II; the supporting plate II is provided with a fixing frame, a limiting groove and a limiting plate; the fixed frame is provided with a guide mechanism; the bottom of the limiting plate is provided with a fixing bolt and inserted into the limiting groove.

The bottom of the panel bracket is provided with a guide post III and a spring II; the guide post III penetrates through the support plate I and is movably connected with the support plate I; spring II cup joints guide post III, and II one ends of spring push against panel bracket bottom, and the other end pushes against backup pad I.

The guiding mechanism comprises an air cylinder II, a fixed arm II, a motor III, a roller and a chain; the cylinder II is positioned above the fixed arm II and is fixed on the fixed frame through a pin shaft and the fixed seat; the top shaft of the cylinder II is connected with one side of the fixed arm II through a pin shaft and a fixed seat; a motor III is arranged on the other side of the fixed arm II, and a chain wheel is arranged at the shaft end of the motor III; the roller is fixed at the top end of the fixed arm II through a rotating shaft; one end of the rotating shaft is provided with a chain wheel and is connected with a shaft end chain wheel of the motor III through a chain.

Compared with the prior art, the utility model beneficial effect shows:

1) the utility model can replace manual transfer operation by the adsorption and transfer of the mould pressing panel through the adsorption mechanism, the supporting mechanism and the transmission mechanism, thereby avoiding the problems of efficiency reduction and the like caused by fatigue and other artificial factors when manual operation is used;

2) the lifting adjusting mechanism of the utility model can adjust the supporting plate and the guiding mechanism up and down aiming at the hot-pressing moulds with different heights, and then the panel can be quickly sent into the hot-pressing moulds through the guiding mechanism;

3) the guide mechanism in the utility model can ensure the stable output of power, thereby ensuring the stable feeding and avoiding the problem that the manual feeding is not in place due to different manpower sizes;

4) the panel bracket in the utility model is an elastic bracket; the bracket can move up and down under the influence of gravity, when the panel bracket is fully loaded, the bracket sinks, and the bracket slowly rises along with the continuous feeding and transferring of the panel, and finally the panel is always kept at a relatively stable height so that an adsorption mechanism can absorb the panel; when the panel height is too high or low spring I and fixed block provide regulation and buffer distance for the adsorption tube, guarantee that the panel is adsorbed smoothly.

Drawings

FIG. 1 is a schematic structural view of a hot pressing feeding and conveying device for a molded door panel of the present invention;

fig. 2 is a schematic structural diagram of a supporting mechanism and an adsorption mechanism in the hot pressing feeding and conveying device for the molded door panel of the present invention;

FIG. 3 is a schematic structural view of a lifting adjusting mechanism in the hot pressing feeding and conveying device for the molded door panel of the present invention;

FIG. 4 is an enlarged view of the guide mechanism of FIG. 3;

in the figure: 1. a frame; 101. a guide rail; 102. a support plate I; 103. a guide column I; 2. a transport mechanism; 21. a synchronous belt; 22. a synchronizing wheel; 23. a motor I; 3. a support mechanism; 31. a fixing plate I; 311. a fixed arm I; 312. a guide block; 32. a cylinder I; 33. fixing a plate II; 331. a guide shaft I; 34. a fixing plate III; 341. a vacuum generator; 35. an adsorption mechanism; 351. a fixing frame; 3511. a guide groove; 352. a fixed block; 3521. buckling; 3522. fastening a bolt; 3523. a guide strip; 3524. a guide shaft II; 353. a spring I; 356. an adsorption tube; 4. a panel bracket; 41. a spring II; 42. a guide post III; 5. a lifting adjusting mechanism; 51. a motor II; 52. a screw I; 53. a support plate II; 531. a fixed mount; 532. a limiting plate; 533. a limiting groove; 54. a screw II; 6. a guiding mechanism; 61. a cylinder II; 62. a fixed arm II; 63. a motor III; 64. a roller; 65. a chain; 7. a panel.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 4.

A hot pressing feeding conveying device for a molded door panel comprises a rack 1, a conveying mechanism 2, a supporting mechanism 3, a panel bracket 4, a lifting adjusting mechanism 5 and a guiding mechanism 6; the conveying mechanism 2 and the supporting mechanism 3 are positioned at the top of the frame 1; the panel bracket 4 is positioned at the bottom of the frame 1 and below the supporting mechanism 3; the lifting adjusting mechanism 5 and the guiding mechanism 6 are positioned at one end of the frame 1; the frame 1 carries a conveying mechanism 2, a supporting mechanism 3, a panel bracket 4, a lifting adjusting mechanism 5 and a guiding mechanism 6.

The top of the rack 1 is provided with a guide rail 101, the bottom of the rack is provided with a support plate I102, and one end of the rack 1 is provided with a guide column I103;

the conveying mechanism 2 comprises a synchronous belt 21, a synchronous wheel 22 and a motor I23; the motor I23 is fixed on a supporting leg at one end of the rack 1, and an output shaft of the motor I23 is fixedly connected with the synchronizing wheel 22 and is fixed on a transverse plate of the rack 1 through a fixed seat; the other end of the frame 1 is also fixedly provided with a synchronizing wheel 22; the synchronous belt 21 is connected with synchronous wheels 22 at two ends of the frame 1.

The supporting mechanism 3 comprises a fixing plate I31, a cylinder I32, a fixing plate II 33, a fixing plate III 34 and an adsorption mechanism 35; the fixing plate I31 is movably connected with the guide rail 101 and is fixedly connected with the synchronous belt 21; two ends of the fixing plate I31 are provided with fixing arms I311; one side of the fixed arm I311 is provided with a guide block 312; the air cylinder I32 is fixed on the other side of the fixing arm I311; a fixing plate II 33 is fixedly arranged at the top shaft end of the cylinder I32; the top end of the fixed arm I311 is provided with a fixed plate III 34, and the fixed plate III 34 is provided with a plurality of vacuum generators 341; the fixing plate II 33 is provided with a plurality of adsorption mechanisms 35 and is connected with the vacuum generator 341 through an air pipe, and two ends of the fixing plate II 33 are provided with guide shafts I331; the guide shaft I331 penetrates through the guide block 312 and is used for guiding and stabilizing the fixing plate II 33 when the cylinder I32 is ejected out or contracted to drive the fixing plate II 33 to move up and down;

the adsorption mechanism 35 comprises a fixed frame 351, a fixed block 352, a spring I353 and an adsorption tube 356; the fixing frame 351 is fixed on the fixing plate II 33; the fixing frame 351 is provided with a guide groove 3511; the upper end and the lower end of the fixed block 352 are respectively provided with a guide shaft II 3524; one side of the fixed block 352 is provided with a guide strip 3523, and the other side is provided with a buckle 3521 and a bolt buckle 3522; one end of the buckle 3521 and one end of the bolt buckle 3522 are movably connected with the fixing block 352 through a pin shaft; the spring I353 is sleeved with a guide shaft II 3524 at the top end of the fixed block 352; one end of the spring I353 abuts against the fixing block 352, and the other end of the spring I abuts against the fixing frame 351; the guide strip 3523 is arranged in the guide groove 3511 and used for preventing the fixed block 352 from rotating in the process of moving up and down; the spring I353 not only has a damping effect, but also provides a buffer adjusting distance; the adsorption tube 356 is connected to the vacuum generator 341 through an air tube; the clamp ring is arranged on the adsorption tube 356, the clamp ring of the adsorption tube 356 is clamped on the fixing block 352, then the adsorption tube 356 is fixed through the mutual matching of the buckle 3521 and the bolt buckle 3522, and the buckle 3521 and the bolt buckle 3522 are simple to operate and facilitate the replacement of the adsorption tube 356; a rubber adsorption disc is arranged at the port of the adsorption tube 356 to avoid air leakage during adsorption; the air cylinder I32 in the supporting mechanism 3 drives the adsorption mechanism 35 to move up and down to adsorb the panel 7.

The lifting adjusting mechanism 5 comprises a motor II 51, a screw I52, a support plate II 53 and a screw II 54; the motor II 51 is fixed at the top of a supporting leg at one end of the frame 1; the screw I52 is fixed on a supporting leg of the frame 1 through a fixing seat, and one end of the screw I52 is provided with a bevel gear; two ends of the screw II 54 are respectively and transversely fixed on the two supporting legs through fixing seats, and conical gears are arranged at the two ends; an output shaft of the motor II 51 is fixedly connected with one lead screw I52; the conical gear on the screw I52 is meshed with the conical gears at two ends of the screw II 54; the support plate II 53 is positioned between the two support legs of the frame 1; the screw I52 and the guide column I103 penetrate through the support plate II 53; when the panel 7 forming mechanism is provided with a plurality of forming dies with different heights, the motor II 51 can provide power to drive the support plate II 53 to move up and down along the guide column I103 corresponding to the die position; the support plate II 53 is provided with a fixing frame 531, a limiting groove 533 and a limiting plate 532; the fixed frame 531 is provided with a guide mechanism 6; the bottom of the limiting plate 532 is provided with a fixing bolt and inserted into the limiting groove 533; the position of the position limiting plate 532 may be adjusted according to the width of the panel 7 to ensure that the panel 7 is smoothly guided.

The bottom of the panel bracket 4 is provided with a guide post III 42 and a spring II 41; the guide column III 42 penetrates through the support plate I102 and is movably connected with the support plate I102; a spring II 41 is sleeved with the guide post III 42, one end of the spring II 41 is in top contact with the bottom of the panel bracket 4, and the other end of the spring II is in top contact with the support plate I102; when the panel 7 in the panel bracket 4 is gradually reduced, the weight in the panel bracket 4 is reduced and then is upwards lifted under the influence of the elastic force of the spring II 41, so that the panel 7 of the panel bracket 4 is always at a relatively stable height to ensure that the adsorption mechanism 35 accurately adsorbs the panel 7; the adsorption mechanism 35 adsorbs the panel 7, then is lifted by the support mechanism 3 and then is transferred to the support plate II 53 of the lifting adjusting mechanism 5 by the transfer mechanism 2.

The guiding mechanism 6 comprises an air cylinder II 61, a fixed arm II 62, a motor III 63, a roller 64 and a chain 65; the cylinder II 61 is positioned above the fixed arm II 62 and is fixed on the fixed frame 531 through a pin shaft and a fixed seat; the top shaft of the air cylinder II 61 is connected with one side of the fixing arm II 62 through a pin shaft and a fixing seat; the other side of the fixed arm II 62 is provided with a motor III 63, and the shaft end of the motor III 63 is provided with a chain wheel; the roller 64 is fixed at the top end of the fixing arm II 62 through a rotating shaft; one end of the rotating shaft is provided with a chain wheel and is connected with a motor III 63 shaft end chain wheel through a chain; the fixing arm II 62 is pushed to press downwards through the air cylinder II 61, so that the roller 64 is pressed on one end of the panel 7 on the supporting plate II 53, the motor III 63 provides power to drive the roller 64 to rotate, and the panel 7 is driven by friction force to transmit to one side of the supporting plate II 53 between the limiting plates 532 to enter a forming die.

A hot pressing feeding and conveying device for a molded door panel works as follows:

firstly, adjusting the components by a lifting adjusting mechanism to support the plate to a position corresponding to a hot-pressing mold needing to be loaded; then the adsorption mechanism adsorbs the panel, and then the adsorption mechanism and the panel are lifted through the supporting mechanism; then one end of the panel is conveyed to a supporting plate of the lifting adjusting mechanism through a conveying mechanism; and then the panel is guided into the hot-pressing die through the guiding mechanism.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (5)

1. A hot pressing feeding conveying device for a molded door panel comprises a rack, a conveying mechanism, a supporting mechanism, a panel bracket, a lifting adjusting mechanism and a guiding mechanism; the device is characterized in that the conveying mechanism and the supporting mechanism are positioned at the top of the frame; the panel bracket is positioned at the bottom of the frame and is positioned below the supporting mechanism; the lifting adjusting mechanism and the guiding mechanism are positioned at one end of the frame; the frame bears transport mechanism, supporting mechanism, panel bracket, lifting adjusting mechanism, guide mechanism;

the supporting mechanism comprises a fixing plate I, a cylinder I, a fixing plate II, a fixing plate III and an adsorption mechanism; the fixing plate I is movably connected with the guide rail and is fixedly connected with the synchronous belt; fixed arms I are arranged at two ends of the fixed plate I; one side of the fixed arm I is provided with a guide block; the cylinder I is fixed on the other side of the fixed arm I; a fixing plate II is fixedly arranged at the top shaft end of the air cylinder I; the top end of the fixed arm I is provided with a fixed plate III, and the fixed plate III is provided with a plurality of vacuum generators; the fixed plate II is provided with a plurality of adsorption mechanisms and is connected with a vacuum generator through an air pipe, and two ends of the fixed plate II are provided with guide shafts I; the guide shaft I penetrates through the guide block; the adsorption mechanism comprises a fixed frame, a fixed block, a spring I and an adsorption tube; the fixing frame is fixed on the fixing plate II; the fixed frame is provided with a guide groove; the upper end and the lower end of the fixed block are respectively provided with a guide shaft II; one side of the fixed block is provided with a guide strip, and the other side of the fixed block is provided with a buckle and a bolt buckle; one end of the buckle and one end of the bolt buckle are movably connected with the fixing block through a pin shaft; the spring I is sleeved with a guide shaft II at the top end of the fixed block; one end of the spring I is in top contact with the fixed block, and the other end of the spring I is in top contact with the fixed frame; the guide strip is arranged in the guide groove; the adsorption tube is connected with a vacuum generator through an air tube; the adsorption tube is provided with a snap ring; the adsorption pipe orifice is provided with a rubber adsorption disc.

2. The hot pressing feeding and conveying device for the molded door panels as claimed in claim 1, wherein the top of the frame is provided with a guide rail, the bottom of the frame is provided with a support plate I, and one end of the frame is provided with a guide column I; the conveying mechanism comprises a synchronous belt, a synchronous wheel and a motor I; the motor I is fixed on a supporting leg at one end of the rack, and an output shaft of the motor I is fixedly connected with a synchronizing wheel and is fixed on a transverse plate of the rack through a fixed seat; the other end of the frame is also fixedly provided with a synchronizing wheel; the synchronous belt is connected with synchronous wheels at two ends of the rack.

3. The hot pressing feeding and conveying device for the molded door panels as claimed in claim 1, wherein the lifting adjusting mechanism comprises a motor II, a screw I, a support plate II and a screw II; the motor II is fixed on the top of a supporting leg at one end of the rack; the screw I is fixed on the support leg of the rack through a fixed seat, and one end of the screw I is provided with a conical gear; two ends of the screw II are respectively and transversely fixed on the two supporting legs through fixing seats, and conical gears are arranged at the two ends of the screw II; an output shaft of the motor II is fixedly connected with one lead screw I; the conical gear on the screw I is meshed with the conical gears at two ends of the screw II; the support plate II is positioned between the two support legs of the frame; the screw I and the guide column I penetrate through the support plate II; the supporting plate II is provided with a fixing frame, a limiting groove and a limiting plate; the fixed frame is provided with a guide mechanism; the bottom of the limiting plate is provided with a fixing bolt and inserted into the limiting groove.

4. A hot press loading conveyor for embossed door panels as claimed in claim 1 wherein the panel carrier has guide posts iii and springs ii at its base; the guide post III penetrates through the support plate I and is movably connected with the support plate I; spring II cup joints guide post III, and II one ends of spring push against panel bracket bottom, and the other end pushes against backup pad I.

5. The hot-pressing feeding and conveying device for the molded door panels as claimed in claim 1, wherein the guiding mechanism comprises a cylinder II, a fixed arm II, a motor III, a roller and a chain; the cylinder II is positioned above the fixed arm II and is fixed on the fixed frame through a pin shaft and the fixed seat; the top shaft of the cylinder II is connected with one side of the fixed arm II through a pin shaft and a fixed seat; a motor III is arranged on the other side of the fixed arm II, and a chain wheel is arranged at the shaft end of the motor III; the roller is fixed at the top end of the fixed arm II through a rotating shaft; one end of the rotating shaft is provided with a chain wheel and is connected with a shaft end chain wheel of the motor III through a chain.

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