CN212711310U - Production line is carried to fungus basket - Google Patents

Abstract

A fungus basket conveying production line comprises a low-high end conveyor, a telescopic roller way machine and a follow-up lifting conveyor, wherein the upper end of the low-high end conveyor is connected with the telescopic roller way machine, and a moving vehicle of the telescopic roller way machine is connected with the upper end of the follow-up lifting conveyor; the utility model discloses a fungus basket conveying production line, the locomotive of flexible roll table machine is flexible in length direction and moves, and the support body moves telescopically and stably; two ends of the follow-up lifting conveyor are connected with the telescopic roller bed machine and the car loader lifting frame through the tensioning plate and the connecting rotating hinge shaft, so that linkage is smooth; the two ends of the low-high-end conveyor are provided with the tensioning rollers through tensioning plates, and the low-high-end conveyor has small clearance with the upper telescopic roller machine and the lower roller machine, is smoothly linked and is convenient to assemble. The problems of unsmooth connection, poor stability and the like of a fungus basket conveying production line are solved.

Description

Production line is carried to fungus basket

Technical Field

The utility model relates to a material transmission equipment field especially relates to edible mushroom production line transmission equipment.

Background

In the production process of edible fungi, the fungi packaging bags are put into the fungi basket after being finished, and then the fungi are horizontally conveyed to a car loader by adopting a manual car loading or roller bed machine, so that the manual car loading speed is low, and the production efficiency is low.

A traditional fungus basket conveying production line generally comprises a roller way machine for horizontally conveying fungus baskets, wherein the roller way machine is connected with a low-high end conveyor, the fungus baskets are conveyed to a high-position roller way machine, then the fungus baskets are connected with a car loader lifting frame through a follow-up lifting conveyor, and the fungus baskets are loaded into a sterilization car along with the up-and-down movement of the car loader lifting frame. The joint gap between the two ends of the low-high-end lifter and the upper and lower roller machines is large, so that the transmission is unstable and the fungus baskets are not in place; the follow-up lifting conveyor is not smoothly linked with the upper roller bed machine and the car loader lifting frame, so that the follow-up performance of the follow-up lifting conveyor and the conveying stability of the fungus baskets are influenced;

and the lifting frame of the car loader can cause the movement of the upper roller way machine to easily change the direction and stretch and retract unstably, thereby influencing the conveying stability of the fungus baskets.

SUMMERY OF THE UTILITY MODEL

In order to realize the problem of smooth transition and linking between roller machine, low high-end conveyer, flexible roller machine, follow-up lift conveyer and the carloader, the utility model provides a production line is carried to fungus basket.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a fungus basket conveying production line comprises a low-high end conveyor 3, a telescopic roller way machine 1 and a follow-up lifting conveyor 2, wherein the upper end of the low-high end conveyor 3 is connected with the telescopic roller way machine 1, and a moving vehicle 15 of the telescopic roller way machine 1 is connected with the upper end of the follow-up lifting conveyor 2; follow-up conveying elevator tensioning plates 22 are respectively installed at two ends of a front follow-up lifting conveyor side beam 212 and a rear follow-up lifting conveyor side beam 212 of the follow-up lifting conveyor 2, a tensioning roller 23 is installed between the front follow-up conveying elevator tensioning plates 22 and the rear follow-up conveying elevator tensioning plates 22 which are located at the same end of the two follow-up lifting conveyor side beams 212, a transmission belt 25 is arranged between the tensioning roller 23 and a driving mechanism, and the outer ends of the follow-up conveying elevator tensioning plates 22 are respectively connected with a car loader lifting frame 41 and a telescopic moving car 15 of the telescopic roller bed machine 1 through connecting rotary hinge shafts 19; the two ends of two front and back low-high end conveyor side beams 312 of the low-high end conveyor 3 are respectively provided with a low-high end conveyor tensioning plate 32, a low-high end conveyor tensioning roller 33 is arranged between the two front and back low-high end conveyor tensioning plates 32 at the same end of the two low-high end conveyor side beams 312, a low-high end conveyor transmission belt 35 is arranged between the low-high end conveyor tensioning roller 33 and a driving mechanism, and the high end of the low-high end conveyor 3 is connected with the telescopic roller bed machine 1.

Two sliding rails 12 are arranged in front and at the back of the upper part of the frame body 11 of the telescopic roller way machine 1, which is positioned at one side of the output end, and pulleys 13 matched with the sliding rails 12 are respectively arranged at the front side and the back side of the bottom of the telescopic moving vehicle 15; telescopic plate brackets 111 are symmetrically arranged in front and back of the upper part of the frame body 11 at one side of the input end, upper side beams 119 are arranged on the telescopic plate brackets 111 and the upper part of the input end frame body, telescopic roller way machine driving rollers 118 and fixed rollers 116 are uniformly arranged between the front upper side beam 119 and the rear upper side beam 119, and one end of each telescopic roller way machine driving roller 118 is connected with a driving motor 121; a telescopic plate is arranged between the telescopic moving vehicle 15 and the telescopic plate bracket 111, and a roller chain 117 is arranged outside the movable roller 114, the fixed roller 116 and the drive roller 118 of the telescopic roller machine; the telescopic moving vehicle 15 is arranged at the outer side and is provided with a connecting and rotating hinge shaft 19 connected with the follow-up conveying lifter 2 through a hinge shaft connecting angle plate 16.

Longitudinal strip-shaped moving grooves 14 are symmetrically formed in front and rear vehicle plates 17 of the telescopic moving vehicle 15, and the lower end of an outer telescopic plate 18 located at one end of the telescopic moving vehicle is fixed in the moving grooves 14 through a moving bolt 110; a moving groove 15 is formed in the front and rear telescopic plate brackets 111 at a position corresponding to the moving groove in the vehicle plate 17, and the lower end of an inner telescopic plate 130 positioned on one side of the telescopic plate brackets 111 is mounted in the moving groove 15 of the telescopic plate brackets 111 through a moving bolt 110; the expansion plate comprises an outer expansion plate 18 and an inner expansion plate 130, the outer expansion plate 18 and the inner expansion plate 130 are connected with each other pairwise, the upper ends of the outer expansion plate 18 and the inner expansion plate 130 are fixed at the front end and the rear end of the movable roller 114, the lower ends of the outer expansion plate 18 and the inner expansion plate 130 are movably connected, and the intersection of the outer expansion plate 18 and the inner expansion plate 130 is movably connected.

A lower connecting rod 113 is arranged between the lower ends of the front and rear outer telescopic plates 18 positioned at one end of the telescopic moving vehicle, the lower ends of the outer telescopic plates 18 are fixed at the end parts of the lower connecting rod 113 through a moving bolt 110, the outer telescopic plates 18 are positioned at the inner side of the vehicle plate 17, and the moving bolt 110 is positioned in the moving groove 14; a lower connecting rod 113 is arranged between the lower ends of the front and rear inner telescopic plates 130 positioned at one end of the telescopic plate bracket 111, the lower ends of the inner telescopic plates 130 are fixed at the end part of the lower connecting rod 113 through a movable bolt 110, the inner telescopic plates 130 are positioned at the inner side of the telescopic plate bracket 111, and the movable bolt 110 is positioned in the movable groove 14; a lower connecting rod 113 is arranged between the lower connecting ends of the outer telescopic plate 18 and the inner telescopic plate 130 corresponding to the front side and the rear side, and the lower connecting ends of the outer telescopic plate 18 and the inner telescopic plate 130 are fixed at the end part of the lower connecting rod 113 through a movable bolt 122; an upper connecting rod 112 is arranged between the intersections of the outer telescopic plates 18 and the inner telescopic plates 130 corresponding to the front side and the rear side, and the intersections of the outer telescopic plates 18 and the inner telescopic plates 130 are fixed at the end parts of the upper connecting rod 112 through transition chain wheels 147 and locking bolts 115; the upper ends of the outer telescopic plate 18 and the inner telescopic plate 130 are fixed to the end of the movable roller 114 through a locking bolt 115.

Two ends of a side beam 212 of the two follow-up lifting conveyors 2 are respectively provided with a tensioning base plate 217, the upper part of the front end of a tensioning plate 22 of the follow-up conveying lifting conveyor is provided with a tensioning roller mounting hole 233, the tensioning plate 22 of the follow-up conveying lifting conveyor is provided with a transverse strip-shaped follow-up conveying lifting conveyor adjusting hole 222, the rear end edge of the tensioning plate 22 of the follow-up conveying lifting conveyor is vertically provided with a push plate 231, the rear end edge of the tensioning base plate 217 is provided with a push plate 231 corresponding to the push plate 231 of the tensioning plate, an adjusting bolt 216 is transversely arranged on the push plate 231 of the tensioning base plate 217, and the follow-up conveying lifting conveyor tensioning plate 22 is fixed in a screw hole 232 of the tensioning base plate 217 through a follow-up conveying lifting conveyor fastening bolt 234 arranged in the follow-up conveying lifting conveyor adjusting hole 222; the mounting holes of the two follow-up conveying elevator tensioning plates 22 at the same end of the two follow-up lifting conveyor side beams 212 are arranged on the connecting rotary hinge shaft 19 of the moving vehicle 15 of the telescopic roller bed machine 1 or the car loader lifting frame 41.

And bearings 220 are arranged at two ends of the connecting rotary hinge shaft 19, bearing seats 221 of the bearings 220 are fixed on the hinge shaft connecting angle plate 16, and the tension plate 22 of the follow-up conveying elevator is fixed at the end part of the connecting rotary hinge shaft 19 through a fixing bolt 218.

The tensioning cushion plates 217 are respectively arranged at two ends of the front and rear low-high end conveyor side beams 312 of the low-high end conveyor 3, screw holes 232 are formed in the tensioning cushion plates 217, tensioning roller mounting holes are formed in the front ends of the tensioning plates 32 of the low-high end conveyor, low-high end conveyor roller fixing shafts 369 of the tensioning rollers 33 of the low-high end conveyor are inserted into the tensioning roller mounting holes in the front and rear low-high end conveyor tensioning plates 32 at the same end of the two low-high end conveyor side beams 312, the low-high end conveyor roller fixing shafts 369 are fixed on the tensioning plates 32 through shaft end pressing covers 368 and low-high end conveyor fastening bolts 367, transverse strip-shaped low-high end conveyor adjusting holes 322 are formed in the tensioning plates 32 of the low-high end conveyor, low-high end conveyor push plates 231 are vertically arranged at the rear end edges of the tensioning plates 32 of the low-high end conveyor, push plates 231 corresponding to the low-high end conveyor push plates 231 of the tensioning plates are arranged at the rear end edges of the tensioning cushion plates 217, the low-high end conveyor tension plate 32 is fixed on the tension backing plate 217 through fastening bolts arranged in the low-high end conveyor adjusting holes 322.

A driving mechanism is arranged at the lower side of the middle part of the front side beam and the rear side beam of the follow-up lifting conveyor 2 and the low-high end conveyor 3, the driving mechanism comprises a front driving plate 29 and a rear driving plate 29 which are parallel, the driving plates 29 are fixed at the bottom of the side beam 212 of the follow-up lifting conveyor, a motor 211 is arranged on the front driving plate 29, two redirection rollers 26 are arranged between the front driving plate 29 and the rear driving plate 29, two ends of a roller fixing shaft 223 of the follow-up conveying lifting in the redirection rollers 26 are arranged on the driving plates 29, a roller driving roller 27 is arranged at the lower side of the middle part of the two redirection rollers 26 between the front driving plate 29 and the rear driving plate, two ends of the roller 27 of the follow-up conveying lifting are fixed on the front driving plate 29 and the rear driving plate 29, a motor chain wheel 210 is arranged on an output shaft of the motor, a follow-up conveying elevator conveying belt 25 is arranged among the tension roller 23, the redirection roller 26 and the follow-up conveying elevator driving roller 27.

Two ends of the follow-up conveying elevator driving roller 27 are fixed on the driving plate 29 through bearings and bearing seats 28, two ends of the bend-changing roller 26 are mounted on a follow-up conveying elevator roller fixing shaft 223 through bearings 220, a transverse long-strip-shaped roller adjusting hole 229 is formed in the mounting position, located on the follow-up conveying elevator roller fixing shaft 223, of the driving plate 29, the end portion of the follow-up conveying elevator roller fixing shaft 223 is located in the roller adjusting hole 229, a transverse threaded hole is formed in the end portion of the follow-up conveying elevator roller fixing shaft 223, an adjusting support 228 is longitudinally mounted on one side, located on the roller adjusting hole 229, of the driving plate 29, and a transverse adjusting bolt 226 mounted on the adjusting support 228 is fixedly connected with the follow-up conveying elevator roller fixing shaft 223 through.

The utility model discloses a fungus basket conveying production line, the locomotive of flexible roll table machine is flexible in length direction and moves, and the support body moves telescopically and stably; two ends of the follow-up lifting conveyor are connected with the telescopic roller bed machine and the car loader lifting frame through the tensioning plate and the connecting rotating hinge shaft, so that linkage is smooth; the two ends of the low-high-end conveyor are provided with the tensioning rollers through tensioning plates, and the low-high-end conveyor has small clearance with the upper telescopic roller machine and the lower roller machine, is smoothly linked and is convenient to assemble. The problems of unsmooth connection, poor stability and the like of a fungus basket conveying production line are solved.

Drawings

FIG. 1 is a front view structural diagram of the fungus basket conveying production line of the present invention.

Fig. 2 is a front view of the telescoping roller bed.

Fig. 3 is a side view of the telescoping roller bed.

Fig. 4 is an enlarged structural view of a portion a in fig. 3.

FIG. 5 is a structural view of the installation between the expansion plate and the sweep of the expansion roller machine.

FIG. 6 is a view showing the installation structure of the inner and outer telescopic plates of the telescopic roller machine.

Fig. 7 is a mounting structure diagram between the expansion plate and the expansion plate bracket of the expansion roller machine.

Fig. 8 is a main view of the follow-up lift conveyor.

FIG. 9 is a side view of the connection rotation hinge shaft portion of the follow-up elevating conveyor.

Fig. 10 is a structure view of a tension pad of the follow-up lifting conveyor.

Fig. 11 is an assembly structure view of a tension plate of the follow-up lifting conveyor.

Fig. 12 is a front view structural view of a driving portion of the follow-up elevating conveyor.

Fig. 13 is a top view structural view of a follower lift conveyor driving portion.

Fig. 14 is a main view of the low-high conveyor.

Fig. 15 is a front view structural diagram of the assembly of the tension base plate and the tension plate of the low-high conveyor.

Fig. 16 is a top view structural diagram of the assembly of the tension roller and the tension plate of the low-high conveyor.

Fig. 17 is the main view structure of the assembly of the fungus basket conveying production line, the car loader and the roller bed machine.

In the figure: 1. a telescopic roller way machine, 2, a follow-up lifting conveyor, 3, a low-high end conveyor, 4, a car loader, 41, a car loader lifting frame, 5, a roller way machine, 6, a fungus basket, 11, a frame body, 12, a sliding rail, 13, a pulley, 14, a moving groove, 15, a telescopic moving car, 16, a hinge shaft connecting angle plate, 17, a car plate, 18, an outer telescopic plate, 19, a connecting rotating hinge shaft, 110, a moving bolt, 111, a telescopic plate bracket, 112, an upper connecting rod, 113, a lower connecting rod, 114, a movable roller, 115, a locking bolt, 116, a fixed roller, 117, a roller chain, 118, a telescopic roller way machine driving roller, 119, an upper side beam, 120, a motor chain, 121, a driving motor, 124, a motor base, 125, a pulley frame, 126, a pulley shaft, 127, a front side cover plate, 128, a rear side cover plate, 129, a foot cup, 130, an inner telescopic plate, 131, a connecting beam, 147, a transition chain wheel, 21. a driving connecting rod, 22, a follow-up conveying elevator tensioning plate, 23, a tensioning roller, 24, a supporting plate, 25, a follow-up conveying elevator conveying belt, 26, a redirection roller, 27, a follow-up conveying elevator driving roller, 28, a bearing seat, 29, a driving plate, 210, a motor chain wheel, 211, a motor, 212, a follow-up lifting conveyor side beam, 213, a guide rod, 214, a guide rod support, 215, a guide rod fixing plate, 216, a tensioning plate adjusting bolt, 217, a tensioning cushion plate, 218, a fixing bolt, 219, a spacer sleeve, 220, a bearing, 221, a bearing seat, 222, a follow-up conveying elevator adjusting hole, 223, a follow-up conveying elevator roller fixing shaft, 224, a bearing seat welding, 225, a connecting bolt, 226, an adjusting bolt, 227, a roller chain wheel, 228, an adjusting support, 229, a roller adjusting hole, 230, a chain, 231, a push plate, 232, a screw hole, 233 and a tensioning roller mounting hole, 234. fastening bolts of a follow-up conveying elevator, 32, a low-high end conveyor tensioning plate, 33, a low-high end conveyor tensioning roller, 34, a low-high end conveyor pallet, 35, a low-high end conveyor belt, 36, a low-high end conveyor redirection roller, 37, a low-high end conveyor driving roller, 38, a low-high end conveyor bearing seat, 39, a low-high end conveyor driving plate, 310, a low-high end conveyor motor sprocket, 311, a low-high end conveyor motor, 312, a low-high end conveyor side beam, 313, a low-high end conveyor guide rod, 314, a low-high end conveyor guide rod bracket, 315, a low-high end conveyor guide rod fixing plate, 319, a support fixing bolt, 321, a support leg connecting fixing plate, 324, a bottom pull rod, 325, a low-end support leg, 330, a chain, 337, a belt pallet hole, 338, a foot cup, 339, a top beam pull rod, 340, a high end support leg, 341, and a fixing bolt, 353. front driving plate, 354, back driving plate, 367, low-high conveyor fastening bolt, 368, shaft end gland, 369, low-high conveyor roller fixing shaft, 371, bearing.

Detailed Description

A fungus basket conveying production line structure is shown in figure 1 and comprises a low-high-end conveyor 3, a telescopic roller way machine 1 and a follow-up lifting conveyor 2, wherein the upper end of the low-high-end conveyor 3 is connected with the telescopic roller way machine 1, and a moving vehicle 15 of the telescopic roller way machine 1 is connected with the upper end of the follow-up lifting conveyor 2; follow-up conveying elevator tensioning plates 22 are respectively installed at two ends of a front follow-up lifting conveyor side beam 212 and a rear follow-up lifting conveyor side beam 212 of the follow-up lifting conveyor 2, a tensioning roller 23 is installed between the front follow-up conveying elevator tensioning plates 22 and the rear follow-up conveying elevator tensioning plates 22 which are located at the same end of the two follow-up lifting conveyor side beams 212, a follow-up conveying elevator conveying belt 25 is arranged between the tensioning roller 23 and a driving mechanism, and the outer ends of the follow-up conveying elevator tensioning plates 22 are respectively connected with a car loader lifting frame 41 and a telescopic moving vehicle 15 of the telescopic roller bed machine 1 through connecting rotary hinge shafts 19; the two ends of two front and back low-high end conveyor side beams 312 of the low-high end conveyor 3 are respectively provided with a low-high end conveyor tensioning plate 32, a low-high end conveyor tensioning roller 33 is arranged between the two front and back low-high end conveyor tensioning plates 32 at the same end of the two low-high end conveyor side beams 312, a low-high end conveyor transmission belt 35 is arranged between the low-high end conveyor tensioning roller 33 and a driving mechanism, and the high end of the low-high end conveyor 3 is connected with the telescopic roller bed machine 1.

The structure of the telescopic roller machine is shown in fig. 2-7, two sliding rails 12 are arranged on the upper portion of the frame body 11 in front and at the back of one side of the output end, the front and the back plates 17 of the telescopic moving vehicle 15 are connected through a connecting beam 131, a pulley frame 125 is arranged at the bottom of the telescopic moving vehicle 15, a pulley frame 125 is arranged on the inner side of the bottom edge of each plate 17, two pulley shafts 126 are symmetrically arranged on the pulley frame 125 and the plates 17, a groove-shaped pulley 13 is arranged on each pulley shaft 126, the sliding rails 12 are square sliding rails matched with grooves of the groove-shaped pulley 13, the pulleys are matched with the guide rails, the moving direction is stable, and the telescopic plates are not; the telescopic moving vehicle 15 is arranged at the outer side and is provided with a connecting and rotating hinge shaft 19 connected with the follow-up lifting conveyor through a hinge shaft connecting angle plate 16. Telescopic plate brackets 111 are symmetrically arranged at the front and back of the upper part of the frame body 11 at one side of the input end, upper side beams 119 are arranged on the telescopic plate brackets 111 and the upper part of the input end frame body, telescopic roller bed machine driving rollers 118 and fixed rollers 116 are uniformly arranged between the front and back upper side beams 119, one end of each telescopic roller bed machine driving roller 118 is connected with a driving motor 121, the driving motor 121 is arranged on the frame body 11 through a motor base 124, and one end of each telescopic roller bed machine driving roller 118 is connected with the driving motor 121 through a motor chain 120; the front and rear car plates 17 are symmetrically provided with moving grooves 14, the lower ends of the outer extension plates 18 located at one end of the telescopic moving car are fixed in the moving grooves 14 by moving bolts 110, as shown in fig. 6 and 7, a lower connecting rod 113 is provided between the lower ends of the front and rear outer extension plates 18 located at one end of the telescopic moving car, the lower ends of the outer extension plates 18 are fixed at the end parts of the lower connecting rod 113 by moving bolts 110, the outer extension plates 18 are located on the inner side of the car plates 17, and the moving bolts 110 are located in the moving grooves 14. The front and rear telescopic plate supports 111 are provided with moving grooves 15 at positions corresponding to the moving grooves of the vehicle body 17, the lower ends of the inner telescopic plates 130 located on one side of the telescopic plate supports 111 are mounted in the moving grooves 15 of the telescopic plate supports 111 through moving bolts 110, as shown in fig. 10 and 11, lower connecting rods 113 are arranged between the lower ends of the front and rear inner telescopic plates 130 located at one ends of the telescopic plate supports 111, the lower ends of the inner telescopic plates 130 are fixed at the end portions of the lower connecting rods 113 through the moving bolts 110, the inner telescopic plates 130 are located on the inner sides of the telescopic plate supports 111, and the moving bolts 110 are located in the moving grooves 14. The telescopic plates comprise outer telescopic plates 18 and inner telescopic plates 130, the outer telescopic plates 18 and the inner telescopic plates 130 are connected with each other pairwise, an upper connecting rod 112 is arranged between the intersections of the outer telescopic plates 18 and the inner telescopic plates 130 corresponding to the front side and the rear side, and the intersections of the outer telescopic plates 18 and the inner telescopic plates 130 are fixed at the end parts of the upper connecting rod 112 through transition chain wheels 147 and locking bolts 115; the upper ends of the outer telescopic plate 18 and the inner telescopic plate 130 are fixed to the end of the movable roller 114 through a locking bolt 115. As shown in fig. 8 and 9, a lower connecting rod 113 is disposed between the lower connecting ends of the outer telescopic plate 18 and the inner telescopic plate 130 corresponding to the front and rear sides, and the lower connecting ends of the outer telescopic plate 18 and the inner telescopic plate 130 are fixed to the end of the lower connecting rod 113 by a moving bolt 122; the upper ends of the outer expansion plate 18 and the inner expansion plate 130 are fixed at the end part of the movable roller 114 through a locking bolt 115; the movable roller 114, the fixed roller 116 and the roller way driving roller 118 are externally provided with roller chains 117, and the front edge and the rear edge of the upper part of the frame body 1 are respectively provided with a front side cover plate 127 and a rear side cover plate 128.

When the follow-up lifting conveyor is used, the connecting transmission hinge shaft 19 is connected with the follow-up conveying lifting machine tensioning plate 22 at the end part of the follow-up lifting conveyor 2, the left end of the follow-up lifting conveyor 2 moves up and down along with a rear end car loader, and the right end of the follow-up lifting conveyor 2 is fixed on the telescopic rod way machine and is fixed in height, so that the right end moves left and right. The roller machine drives the roller 118 to rotate through the driving motor 121, so that the roller chain 117 drives the fixed roller 116 and the movable roller 114 to rotate, and material transmission is realized. The stretching and shrinking of the expansion plate are driven by the left and right movement of the telescopic moving vehicle 15, the moving groove 15 is a long strip-shaped longitudinal groove, and the parallel movement of the expansion plate drives the moving bolt 110 to move up and down in the moving groove 14, so that the follow-up between the roller machine and the belt conveyor is realized.

The structure of the follow-up lifting conveyor is shown in fig. 8, and comprises a front follow-up lifting conveyor side beam 212 and a rear follow-up lifting conveyor side beam 212, wherein a driving mechanism is arranged at the lower side of the middle part of the front follow-up lifting conveyor side beam 212 and the rear follow-up lifting conveyor side beam 212, follow-up conveying lifting conveyor tensioning plates 22 are respectively arranged at two ends of the front follow-up lifting conveyor side beam 212 and the rear follow-up lifting conveyor tensioning plates 212, a tensioning roller 23 is arranged between the front follow-up conveying lifting conveyor tensioning plates 22 and the rear follow-up conveying lifting conveyor tensioning plates 22 at the same end of the two follow-up lifting conveyor side beams 212, and a follow; the outer ends of the tension plates 22 of the follow-up conveying lifters on the two sides are respectively provided with a mounting hole connected with the connecting rotary hinge shaft 19 on the connecting car loader lifting frame 41 and the connecting rotary hinge shaft 19 of the telescopic moving car 15 of the telescopic roller machine. A pallet 24 for carrying the conveyor belt 25 is mounted between the front and rear follow-up elevating conveyor side beams 212, and the belt rotates around the pallet 24.

The driving mechanism is shown in fig. 12 and 13, and comprises a front driving plate 29 and a rear driving plate 29 which are parallel to each other, the upper sides of the two driving plates 29 are fixed on the lower edge of the side beam of the belt conveyor, the two driving plates 29 are connected through a driving connecting rod 21 and fixed through bolts, a motor 211 is fixed on one side driving plate 29 through bolts, two redirection rollers 26 are arranged between the front driving plate 29 and the rear driving plate 29, the redirection rollers 26 are arranged on a follow-up conveying elevator roller fixing shaft 223 through bearings 220, the follow-up conveying elevator roller fixing shaft 223 is arranged in a transverse strip-shaped roller adjusting hole 229 above the two side driving plates 29, the end part of the follow-up conveying elevator roller fixing shaft 223 is arranged in a strip-shaped hole 229, a transverse threaded hole is arranged at the end part of the follow-up conveying elevator roller fixing shaft 223, an adjusting bracket 228 is longitudinally arranged on one side of the strip-shaped roller adjusting hole 229 on the driving plate 29 . A follow-up conveying elevator driving roller 27 is arranged between the front and the rear driving plates 29 and positioned at the lower part of the middle of the two redirection rollers 26, the follow-up conveying elevator driving roller 27 is fixedly arranged on the driving plates 29 at the two sides through a bearing and a bearing seat 28, a motor chain wheel 210 is arranged on an output shaft of a motor 211, a roller chain wheel 227 is arranged at the shaft end of the follow-up conveying elevator driving roller 27 at the same side with the output shaft of the motor 211, the motor chain wheel 210 and the roller chain wheel 227 are connected through a chain 230, the power of the motor 211 drives the follow-up conveying elevator driving roller 27 to rotate through, tensioning is realized through the adjusting bolt 226, the belt conveyor drives the belt to rotate through the follow-up conveying elevator driving roller 27, the power of the motor 211 drives the follow-up conveying elevator driving roller 27 to rotate through the transmission chain wheel, tensioning is realized through the adjusting bolt 226, and the belt conveyor drives the belt to rotate through the driving roller 27 of the follow-up conveying elevator.

As shown in fig. 10 and 11, the lower part of the front end of the follow-up conveying elevator tensioning plate 22 is provided with a rotating shaft mounting hole 232 for mounting and connecting the rotating hinge shaft 19, and the lower corner of the front end of the follow-up conveying elevator tensioning plate 22 is of a convex arc structure. The upper part of the front end of the tension plate 22 of the follow-up conveying lifter is provided with a tension roller mounting hole 233. The servo conveying elevator tensioning plate 22 is provided with a transverse elongated servo conveying elevator adjusting hole 222, the servo conveying elevator tensioning plate 22 is provided with a tensioning base plate 217 matched with the servo conveying elevator tensioning plate 22, a push plate 231 is vertically installed at the rear end edge of the servo conveying elevator tensioning plate 22, a push plate 231 corresponding to the push plate 231 of the tensioning plate is installed at the rear end edge of the tensioning base plate 217, an adjusting bolt 216 is transversely installed on the push plate 231 of the tensioning base plate 217, the push plate on the tensioning plate is driven to drive the servo conveying elevator tensioning plate 22 to move back and forth through the adjusting bolt and the adjusting and pushing, after the position is adjusted, the servo conveying elevator tensioning plate 22 is fixed on the tensioning base plate 217 through a servo conveying elevator fastening bolt 234 installed in the servo conveying elevator adjusting hole 222. A tensioning roller 23 is arranged between the tensioning plates 22 of the front and the rear follow-up conveyor lifters at the same end of the two follow-up lifting conveyor side beams 212, and a transmission belt 25 is arranged among the tensioning roller 23, the redirection roller 26 and the drive roller 27 of the follow-up conveyor lifter.

As shown in fig. 9, the mounting holes of the two follow-up conveyor tension plates 22 located at the same end of the two follow-up conveyor side beams 212 are mounted on the connecting rotating hinge shaft 19, the bearings 220 are mounted at two ends of the connecting rotating hinge shaft 19, and the bearing seats 221 of the bearings 220 are fixed on the hinge shaft connecting angle plate 16 and are fixed firmly. The winch shaft connecting angle plate 16 is installed on the car loader lifting frame 41 and the roller way machine moving vehicle 15, and the tension plate 22 of the follow-up conveying lifting machine is fixed at the end part of the connecting rotating winch shaft 19 through a fixing bolt 218 and rotates while being fixed. A spacer 219 is arranged outside the connecting rotary hinge shaft 19 and between the bearing 220 and the tension plate 22 of the follow-up conveying elevator. Guide rod fixing plates 215 are respectively installed on the outer sides of the front and rear follow-up elevating conveyor side beams 212, guide rod brackets 214 are installed on the guide rod fixing plates 215, and guide rods 213 are installed on the guide rod brackets 214.

During the use, crane 4 of carloader reciprocates along with the loading floor height to drive the lift of lift conveyer, the lift of conveyer realizes the follow-up through the rotation of follow-up conveying lift tight board that rises 22 on connecting rotation hinge 19, the other end of lift conveyer is the same through the follow-up conveying lift tight board that rises 22 and connect rotation hinge 19 and realize the removal about flexible roller bed machine locomotive, thereby realized the locomotive of roller bed machine and the mobility of lift conveyer, make the whole degree of coordination higher, the tight board position that rises can be adjusted, realize smooth transition and linking between the three. In addition, the bend rollers of the driving part can be adjusted, and the tensioning rollers are arranged, so that the stable operation of the conveying belt is realized, and the stability of the fungus basket transportation is ensured. The driving mechanism is arranged in the middle of the lower side of the side beam, so that the space of two ends is not occupied, and the connection of the conveyor and adjacent equipment is facilitated.

The low-high end conveyor structure is shown in fig. 14, and comprises a front low-high end conveyor side beam 312 and a rear low-high end conveyor side beam 312, a low-high end conveyor supporting plate 34 for supporting and carrying a low-high end conveyor transmission belt 35 is installed between the front low-high end conveyor side beam 312 and the rear low-high end conveyor side beam 312, a low-high end conveyor guide rod fixing plate 315 is respectively installed on the outer sides of the front low-high end conveyor side beam 312 and the rear low-high end conveyor side beam 312, a low-high end conveyor guide rod bracket 314 is installed on the low-high end conveyor guide rod fixing plate 315, and a low-high end conveyor guide rod 313 is installed on the low. And a driving mechanism is arranged at the lower side of the middle part of the two front and rear low-high end conveyor side beams 312. The driving mechanism is the same as that of the follow-up conveying elevator 2. The low-high end conveyor motor chain wheel 310 and the low-high end conveyor roller chain wheel 327 are connected through a low-high end conveyor chain 330, and a low-high end conveyor transmission belt 35 is arranged among the low-high end conveyor tensioning roller 33, the low-high end conveyor direction-changing roller 36 and the low-high end conveyor driving roller 37. The power of the low-high end conveyor motor 311 drives the low-high end conveyor driving roller 37 to rotate through the chain wheel of the low-high end conveyor motor 310, the belt is tensioned through the adjusting bolt 226, and the belt conveyor is driven to rotate through the low-high end conveyor driving roller 37.

The tensioning cushion plates 17 are respectively installed at two ends of the front and rear low-high conveyor side beams 312, as shown in fig. 15, the tensioning cushion plate 217 is provided with a screw hole 232, the front end of the low-high conveyor tensioning plate 32 is provided with a tensioning roller installation hole, a low-high conveyor roller fixing shaft 369 of the low-high conveyor tensioning roller 3 is inserted into the tensioning roller installation hole, and is fixed on the low-high conveyor tensioning plate 32 through a shaft end gland 368 and a low-high conveyor fastening bolt 367, as shown in fig. 16; the inner sides of two ends of the tensioning roller 33 of the low-high-end conveyor are arranged on a roller fixing shaft 369 of the low-high-end conveyor through bearings 371. The low-high end conveyor tensioning plate 32 is provided with a transverse strip-shaped follow-up conveying elevator adjusting hole 222, the rear end edge of the low-high end conveyor tensioning plate 32 is vertically provided with a push plate 231, the rear end edge of the tensioning backing plate 217 is provided with a push plate 231 corresponding to the push plate 231 of the low-high end conveyor tensioning plate, the push plate 231 of the tensioning backing plate 217 is transversely provided with an adjusting bolt 216, and the low-high end conveyor tensioning plate 32 is fixed in a screw hole 232 of the tensioning backing plate 217 through a fastening bolt arranged in the follow-up conveying elevator adjusting hole 222.

The high-end leg 340 is mounted on the lower front portion of the low-high-end conveyor side member 312, and the low-end leg 325 is mounted on the lower rear portion of the low-high-end conveyor side member 312. Inclined leg connecting fixing plates 321 are arranged at the upper parts of the high-end leg 340 and the low-end leg 325, and the leg connecting fixing plates 321 are fixed at the lower sides of the low-high end conveyor side beams 312 through leg fixing bolts 341; an upper beam pull rod 329 is arranged between the two high-end supporting legs 340, a lower beam pull rod is arranged between the two low-end supporting legs 325, and a bottom pull rod 324 is arranged between the high-end supporting leg 340 and the low-end supporting leg 325 on the same side. The height of the legs can be adjusted by mounting adjustable foot cups 338 on the lower portions of the high-end leg 340 and the low-end leg 325 by adjusting nuts.

When the telescopic roller bed conveyor is used, the low end of the low-high end conveyor is connected with the roller bed conveyor 5, the high end of the low-high end conveyor is connected with the telescopic roller bed machine 1, the height and the gradient of a cross beam are adjusted according to the heights of the roller bed conveyor 5 and the telescopic roller bed machine 1, and the cross beam is fixed after being adjusted, so that the distance between two ends of the conveyor and adjacent equipment can be adjusted, and small materials can be well connected and transited; the belt tensioning and adjusting functions are achieved through adjusting the position of the tensioning plate, so that the belt is prevented from deviating, and the conveying stability of the bacteria basket is enhanced. The materials (the fungus baskets after being loaded) are conveyed to a low-high end conveyor through a roller conveyor 5, and the materials are transited to a rear end telescopic roller conveyor 1 after reaching the high end.

The assembly of the production line is shown in figure 17, the bottom end of a high-end elevator 3 is connected with a roller bed machine 5, the high end of a low-end elevator 3 is connected with a telescopic roller bed machine 1, a moving vehicle 15 of the telescopic roller bed machine 1 is connected with one end of a follow-up elevating conveyor 2, the other end of the follow-up elevating conveyor is connected with a car loader crane 41 of a car loader 4, the car loader crane 41 of the car loader 4 moves up and down along with the heights of different car loading layers so as to drive the follow-up elevating conveyor 2 to move up and down, the front end of the follow-up elevating conveyor 2 drives the moving vehicle 15 of the telescopic roller bed machine 1 to move transversely so as to realize follow-up and connection, the upper end of the low-end conveyor 3 is connected with the input end of the telescopic roller bed machine 1, a fungus basket 6 conveyed from a lower roller bed machine 6 enters the low-end conveyor 3 through the lower end of the low-end conveyor 3 to be conveyed upwards to the telescopic roller bed machine 1, enters the follow-up to be conveyed, all the devices are smoothly connected, and the stability is good.

Claims (9)

1. The utility model provides a production line is carried to fungus basket which characterized in that: the automatic conveying device comprises a low-high-end conveyor (3), a telescopic roller way machine (1) and a follow-up lifting conveyor (2), wherein the upper end of the low-high-end conveyor (3) is connected with the telescopic roller way machine (1), and a moving vehicle (15) of the telescopic roller way machine (1) is connected with the upper end of the follow-up lifting conveyor (2); follow-up conveying elevator tensioning plates (22) are respectively installed at two ends of a front follow-up lifting conveyor side beam (212) and a rear follow-up lifting conveyor side beam (212) of the follow-up lifting conveyor (2), a tensioning roller (23) is installed between the front follow-up conveying elevator tensioning plates (22) and the rear follow-up conveying elevator tensioning plates (22) which are located at the same end of the two follow-up lifting conveyor side beams (212), a follow-up conveying elevator conveying belt (25) is arranged between the tensioning roller (23) and a driving mechanism, and the outer ends of the follow-up conveying elevator tensioning plates (22) are respectively connected with a car loader lifting frame (41) and a telescopic moving car (15) of the telescopic roller bed machine (1) through connecting rotary hinge shafts (19); the two ends of two low high end conveyor curb girders (312) around low high end conveyor (3) are installed low high end conveyor tension plates (32) respectively, be located two low high end conveyor curb girders (312) and install low high end conveyor tension roller (33) between two low high end conveyor tension plates (32) around with one end, be equipped with low high end conveyor transmission belt (35) between low high end conveyor tension roller (33) and the actuating mechanism, the high end of low high end conveyor (3) links up with flexible roller bed machine (1).

2. A gabion conveying line according to claim 1, wherein: two sliding rails (12) are arranged on the upper portion of a frame body (11) of the telescopic roller machine (1) in front and at the back of one side of an output end, and pulleys (13) matched with the sliding rails (12) are arranged on the front side and the back side of the bottom of a telescopic moving vehicle (15) respectively; telescopic plate supports (111) are symmetrically arranged in front and back of the upper portion of the frame body (11) on one side of the input end, upper side beams (119) are arranged on the telescopic plate supports (111) and the upper portion of the input end frame body, telescopic roller bed machine driving rollers (118) and fixed rollers (116) are uniformly arranged between the front upper side beam and the rear upper side beam (119), and one end of each telescopic roller bed machine driving roller (118) is connected with a driving motor (121); a telescopic plate is arranged between the telescopic moving vehicle (15) and the telescopic plate bracket (111), and a roller chain (117) is arranged outside the movable roller (114), the fixed roller (116) and the drive roller (118) of the telescopic roller machine; the telescopic moving vehicle (15) is arranged at the outer side and is provided with a connecting rotary hinge shaft (19) connected with the follow-up lifting conveyor (2) through a hinge shaft connecting angle plate (16).

3. A gabion conveying line according to claim 2, wherein: longitudinal elongated moving grooves (14) are symmetrically formed in front and rear car plates (17) of the telescopic moving car (15), and the lower end of an outer telescopic plate (18) located at one end of the telescopic moving car is fixed in the moving grooves (14) through a moving bolt (110); a moving groove is formed in the front and rear telescopic plate brackets (111) at the position corresponding to the moving groove in the vehicle plate (17), and the lower end of an inner telescopic plate (130) positioned on one side of the telescopic plate brackets (111) is arranged in the moving groove of the telescopic plate brackets (111) through a moving bolt (110); the expansion plate comprises an outer expansion plate (18) and an inner expansion plate (130), the outer expansion plate (18) and the inner expansion plate (130) are connected with each other two by two, the upper ends of the outer expansion plate (18) and the inner expansion plate (130) are fixed at the front end and the rear end of the movable roller (114), the lower ends of the outer expansion plate (18) and the inner expansion plate (130) are movably connected, and the intersection of the outer expansion plate (18) and the inner expansion plate (130) is movably connected.

4. A gabion conveying line according to claim 3, wherein: a lower connecting rod (113) is arranged between the lower ends of front and rear outer telescopic plates (18) positioned at one end of the telescopic moving vehicle, the lower ends of the outer telescopic plates (18) are fixed at the end parts of the lower connecting rods (113) through movable bolts (110), the outer telescopic plates (18) are positioned on the inner side of a vehicle plate (17), and the movable bolts (110) are positioned in a movable groove (14); a lower connecting rod (113) is arranged between the lower ends of the front inner telescopic plate and the rear inner telescopic plate (130) which are positioned at one end of the telescopic plate bracket (111), the lower end of the inner telescopic plate (130) is fixed at the end part of the lower connecting rod (113) through a movable bolt (110), the inner telescopic plate (130) is positioned at the inner side of the telescopic plate bracket (111), and the movable bolt (110) is positioned in the movable groove (14); a lower connecting rod (113) is arranged between the lower connecting ends of the outer telescopic plate (18) and the inner telescopic plate (130) corresponding to the front side and the rear side, and the lower connecting ends of the outer telescopic plate (18) and the inner telescopic plate (130) are fixed at the end part of the lower connecting rod (113) through a movable bolt (110); an upper connecting rod (112) is arranged between the intersection of the outer telescopic plate (18) and the inner telescopic plate (130) corresponding to the front side and the rear side, and the intersection of the outer telescopic plate (18) and the inner telescopic plate (130) is fixed at the end part of the upper connecting rod (112) through a transition chain wheel (147) and a locking bolt (115); the upper ends of the outer expansion plate (18) and the inner expansion plate (130) are fixed at the end part of the movable roller (114) through a locking bolt (115).

5. A gabion conveying line according to claim 1, wherein: two ends of a side beam (212) of the two follow-up lifting conveyors at the front and the back of the follow-up lifting conveyor (2) are respectively provided with a tensioning base plate (217), the upper part of the front end of a tensioning plate (22) of the follow-up conveying lifting machine is provided with a tensioning roller mounting hole (233), the tensioning plate (22) of the follow-up conveying lifting machine is provided with a transverse strip-shaped follow-up conveying lifting machine adjusting hole (222), the edge of the rear end of the tensioning plate (22) of the follow-up conveying lifting machine is vertically provided with a push plate (231), the edge of the rear end of the tensioning base plate (217) is provided with a push plate (231) corresponding to the push plate (231) of the tensioning plate, and an adjusting bolt (216) is transversely arranged on the push plate (231) of the tensioning base, the follow-up conveying elevator tensioning plate (22) is fixed in a screw hole (232) of the tensioning base plate (217) through a follow-up conveying elevator fastening bolt (234) arranged in a follow-up conveying elevator adjusting hole (222); the mounting holes of the tensioning plates (22) of the front and the rear follow-up conveying lifters positioned at the same end of the side beams (212) of the two follow-up lifting conveyors are arranged on a connecting rotary hinge shaft (19) of a moving vehicle (15) of the telescopic roller machine (1) or a car loader lifting frame (41).

6. A gabion conveying line according to claim 5, wherein: and bearings (220) are arranged at two ends of the connecting rotary hinge shaft (19), bearing seats (221) of the bearings (220) are fixed on the hinge shaft connecting angle plate (16), and a tension plate (22) of the follow-up conveying lifter is fixed at the end part of the connecting rotary hinge shaft (19) through a fixing bolt (218).

7. A gabion conveying line according to claim 1, wherein: the two ends of two low-high end conveyor side beams (312) at the front and the back of the low-high end conveyor (3) are respectively provided with a tensioning backing plate (217), the tensioning backing plate (217) is provided with a screw hole (232), the front end of the low-high end conveyor tensioning plate (32) is provided with a tensioning roller mounting hole, a low-high end conveyor roller fixing shaft (369) of the low-high end conveyor tensioning roller (33) is inserted into the tensioning roller mounting holes on the two low-high end conveyor tensioning plates (32) at the front and the back of the same end of the two low-high end conveyor side beams (312), the low-high end conveyor roller fixing shaft (369) is fixed on the low-high end conveyor tensioning plate (32) through a shaft end gland (368) and a low-high end conveyor fastening bolt (367), the low-high end conveyor tensioning plate (32) is provided with a transverse strip-shaped low-high end conveyor adjusting hole (322), and the rear end edge of the low-high end conveyor tensioning plate (32) is vertically provided with a low-high end conveyor push plate (231), the rear end edge of the tensioning backing plate (217) is provided with a low-high conveyor push plate (231) corresponding to the low-high conveyor push plate (231) of the tensioning plate, the low-high conveyor push plate (231) of the tensioning backing plate (217) is transversely provided with a low-high conveyor adjusting bolt (316), and the low-high conveyor tensioning plate (32) is fixed on the tensioning backing plate (217) through a fastening bolt arranged in a low-high conveyor adjusting hole.

8. A gabion conveying line according to claim 1, wherein: a driving mechanism is arranged at the lower side of the middle part of the front side beam and the rear side beam of the follow-up lifting conveyor (2) and the low-high end conveyor (3), the driving mechanism comprises a front driving plate and a rear driving plate (29) which are parallel, the driving plates (29) are fixed at the bottom of the side beam (212) of the follow-up lifting conveyor, a motor (211) is arranged on the driving plate (29) at the front side, two redirection rollers (26) are arranged between the front driving plate and the rear driving plate (29), two ends of a follow-up conveying elevator roller fixing shaft (223) in the redirection rollers (26) are arranged on the driving plates (29), a follow-up conveying elevator driving roller (27) is arranged at the lower side of the middle of the two redirection rollers (26) between the front driving plate and the rear driving plate (29), two ends of the follow-up conveying elevator driving roller (27) are fixed on the front driving, a roller chain wheel (227) is installed at the shaft end of the servo conveyor elevator driving roller (27) on the same side as the output shaft of the motor (211), the motor chain wheel (210) is connected with the roller chain wheel (227) through a chain, and a servo conveyor elevator conveying belt (25) is arranged among the tensioning roller (23), the redirection roller (26) and the servo conveyor elevator driving roller (27).

9. A gabion conveying line according to claim 8, wherein: two ends of a driving roller (27) of the follow-up conveying elevator are fixed on a driving plate (29) through bearings and bearing seats (221), two ends of a bend roller (26) are installed on a fixing shaft (223) of the follow-up conveying elevator roller through bearings (220), a transverse long-strip-shaped roller adjusting hole (229) is formed in the installation position, located on the fixing shaft (223) of the follow-up conveying elevator roller, of the driving plate (29), the end portion of the fixing shaft (223) of the follow-up conveying elevator roller is located in the roller adjusting hole (229), a transverse threaded hole is formed in the end portion of the fixing shaft (223) of the follow-up conveying elevator roller, an adjusting support (228) is longitudinally installed on one side, located on the roller adjusting hole (229), of the driving plate (29), and a transverse adjusting bolt (226) installed on the adjusting support (228) is fixedly connected with the fixing shaft (223) of.

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