CN112045789A - Automatic cutting machine for bay tree sections - Google Patents

Abstract

The invention provides an automatic cutting machine for bay tree sections, which comprises a rack, a tree conveying mechanism, a tree pressing mechanism, a cutting mechanism and an adjusting mechanism, wherein the tree conveying mechanism, the tree pressing mechanism, the cutting mechanism and the adjusting mechanism are arranged on the rack, the adjusting mechanism is used for adjusting the conveying mechanism to be suitable for trees with different thicknesses, and the adjusting mechanism realizes synchronous action of a plurality of adjusting components in a screw and worm linkage structural form. The tree cutting machine is simple in structure and high in practicability, and can be suitable for cutting trees with different thicknesses; the adjusting mechanism adopts a linkage structure form, and other adjusting mechanisms can be synchronously adjusted by adjusting one mechanism; the pressing mechanism presses the wood to be cut, and the pressing wheel is designed into a U-shaped structure, so that the pressing effect is improved; the cutting cylinder controls the cutter to move up and down, so that wood is cut, and the wood is pushed away from a cutting table by the corresponding material pushing cylinder after the wood is cut; the cutting length of the tree is determined through the inductor, manual marking is not needed, and therefore cutting efficiency is improved.

Description

Automatic cutting machine for bay tree sections

Technical Field

The invention relates to the technical field of cutting machines, in particular to an automatic cutting machine for a bay tree section.

Background

Cinnamon, also known as cinnamon, is one of the major perfumery plants in the world. The value of the cinnamon with different sizes on the market is quite different, so the extraction process of the cinnamon on the market is that a long-strip cinnamon wood segment is generally extracted, and then the cinnamon wood segment with proper thickness is selected to carry out quantitative length cutting according to the size requirement of the market on the cinnamon.

However, because the long-strip osmanthus trees with different thicknesses need to be cut into corresponding osmanthus tree sections with different lengths, the long-strip osmanthus trees with different thicknesses need to be manually distinguished, then cutting lines are correspondingly carved on the osmanthus tree strips with different thicknesses, and finally, a cutting machine is manually used for cutting one section by aiming at the carved cutting lines. The different size requirements of the thickness and length of the cassia tree sections and the long-term manual use of the cutting machine greatly reduce the working efficiency of cutting the wood sections, and increase the labor cost and labor fatigue.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic cutting machine for the cassia tree sections, which can be suitable for the cassia trees with different thicknesses and can realize continuous cutting of the cassia tree sections with required length.

The technical scheme of the invention is as follows: the automatic cutting machine for the bay tree sections comprises a rack, a tree conveying mechanism, a tree pressing mechanism and a cutting mechanism, wherein the tree conveying mechanism, the tree pressing mechanism and the cutting mechanism are arranged on the rack, the cutting machine further comprises an adjusting mechanism used for adjusting the conveying mechanism to be suitable for trees with different thicknesses, and the adjusting mechanism is realized in a mode of linkage of a screw rod and a worm.

Preferably, tree conveyor constructs including setting up the first transmission subassembly and the second transmission subassembly that the structure is the same on the frame, first transmission subassembly and second transmission subassembly all include two conveying roller that mutually support.

Preferably, the conveying roller is a motorized roller with a transmission motor, and the motorized roller is arranged on the corresponding roller.

Preferably, a plurality of strip-shaped convex blocks are distributed on the outer side wall of each electric roller.

Preferably, the tree hold-down mechanism is arranged above the tree conveying mechanism and matched with the tree conveying mechanism.

Preferably, trees hold-down mechanism including setting up backup pad, clamp plate, a plurality of pinch roller in the frame to and be used for driving the lift cylinder that the pinch roller goes up and down, the clamp plate set up at the backup pad lower extreme through a leading axle and bearing, the clamp plate lower extreme be provided with a plurality of pinch rollers, and the clamp plate still be connected with the lift cylinder that sets up in the backup pad upper end.

Preferably, the pinch roller is a U-shaped roller, the U-shaped roller is arranged on a U-shaped support through a connecting shaft, and the U-shaped support is arranged at the lower end of the pressing plate.

Preferably, the adjusting mechanism comprises a first adjusting component and a second adjusting component, the first adjusting component is in linkage connection with the second adjusting component through a worm, the adjusting component is matched with one group of transmission components, and the second adjusting component is matched with the other group of transmission components.

Preferably, the first adjusting assembly comprises a first double-head forward and backward screw rod, a first rocker arm a, a first rocker arm b, a first gearwheel a, a first gearwheel b and a first long shaft, the lower end of the first long shaft is connected with one end of a worm through a turbine, the upper end of the first long shaft is sleeved with the first gearwheel a and the first rocker arm a, and the first gearwheel a is meshed with the first gearwheel b through a plurality of pinions;

one pot head of first rocking arm a establish on one of them motorized pulley's of first transmission subassembly roller bearing, the other end of first rocking arm a remove one end of seat a and first two-head positive and negative screw rod through first nut and be connected, the other end of first two-head positive and negative screw rod on still be provided with first nut and remove seat b, first nut remove one end of seat b and first rocking arm b and be connected, the other end of first rocking arm b is connected with another motorized pulley's of first transmission subassembly roller bearing, and first rocking arm b's central authorities still set up on first gear wheel b's gear shaft through corresponding bearing.

Preferably, the second adjusting group comprises a second rocker arm a, a second rocker arm b, a second gearwheel a, a second gearwheel b and a second long shaft, the lower end of the second long shaft is connected with the other end of the worm through another turbine, the upper end of the second long shaft is sleeved with the second gearwheel a and the second rocker arm a, one end of the second rocker arm a is sleeved on a roller of one of electric drums of the second transmission assembly, the other end of the second rocker arm a is suspended, the second gearwheel a is meshed with the second gearwheel b through a plurality of pinions, the second rocker arm b is further sleeved on the upper end of a gear shaft of the second gearwheel b, one end of the second rocker arm b is sleeved on a roller of the other electric drum of the second transmission assembly, and the other end of the second rocker arm b is suspended.

Preferably, the lower ends of the rollers of the motorized rollers of the first transmission assembly and the second transmission assembly are connected with the corresponding slide rails through the corresponding slide seats.

Preferably, the first double-head positive and negative screw rod is provided with positive and negative threads, the first nut moving seat a and the first nut moving seat b are respectively connected with the positive and negative threads at the two ends of the first double-head positive and negative screw rod, and the first double-head positive and negative screw rod is also provided with an adjusting hand wheel; when the first double-head forward and reverse screw rod rotates, the first nut moving seat a and the first nut moving seat b can move oppositely or relatively.

Preferably, cutting mechanism include cutting motor, cutting cylinder, cutter, cutting motor be connected with the cutter, and the cutting motor still rotate with the frame through an arc handle and be connected, the central point of arc handle still be connected with the cutting cylinder, the cutting cylinder set up in the frame through a pillar, through cutting cylinder control arc handle around the frame lift to realize the cutting of trees.

Preferably, the lower end of the arc-shaped handle is rotatably connected with the frame through a rotating shaft.

Preferably, a pushing cylinder is further arranged at the position, close to the cutting mechanism, of the tail end of the rack, the pushing cylinder is connected with a pushing plate, and the cut wood is pushed out of the rack through the pushing cylinder.

Preferably, the machine frame corresponding to the cutting mechanism is further provided with a sensor for detecting trees.

The invention has the beneficial effects that:

1. the tree cutting machine is simple in structure and high in practicability, and can be suitable for cutting trees with different thicknesses;

2. the width of the transmission mechanism can be adjusted through the adjusting mechanism, so that trees with different sizes can be used, the adjusting mechanism adopts a linkage structure form, and other adjusting mechanisms can be synchronously adjusted by adjusting one mechanism;

3. the wood to be cut is pressed through the pressing mechanism, the cutting accuracy is guaranteed, and the pressing wheel is designed into a U-shaped structure, so that the pressing effect is improved;

4. the cutting cylinder controls the cutter to move up and down, so that wood is cut, and the wood is pushed away from a cutting table by the corresponding material pushing cylinder after the wood is cut;

5. according to the invention, the sensor is used, and the wood is moved to be in contact with the sensor in the cutting process, so that the length of the cut wood is accurately controlled, manual marking is not needed, and the cutting efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the tree transport mechanism of the present invention;

FIG. 3 is a schematic view of the tree hold down mechanism of the present invention;

FIG. 4 is a schematic view of the adjusting mechanism of the present invention;

FIG. 5 is a schematic view of the cutting mechanism of the present invention;

FIG. 6 is a schematic view of a first adjustment assembly of the present invention;

FIG. 7 is a schematic structural view of a second adjustment assembly of the present invention;

FIG. 8 is a schematic view of a conveying roller according to the present invention;

in the figure, 1-a frame, 2-a conveying roller, 3-a supporting plate, 4-a pressing plate, 5-a pressing wheel, 6-a lifting cylinder, 7-a U-shaped bracket, 8-a guide shaft, 9-a worm,

10-a first double-head positive and negative screw rod, 11-a first rocker arm a, 12-a first rocker arm b, 13-a first big gear a, 14-a first big gear b, 15-a first long shaft, 16-a turbine, 17-a pinion, 18-a first nut moving seat a, 19-a first nut moving seat b, 20-a second rocker arm a, 21-a second rocker arm b, 22-a second big gear a, 23-a second big gear b, 24-a second long shaft, 25-an adjusting hand wheel, 26-a cutting motor, 27-a cutting cylinder, 28-a cutter, 29-an arc handle, 30-a rotating shaft, 31-an electric roller, 32-a rolling shaft, 33-a lug, 34-a rack, 35-a support column, 36-a material pushing cylinder and 37-a material pushing plate, 38-the sensors are arranged in the vertical direction,

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings:

as shown in fig. 1, the present embodiment provides an automatic cutting machine for a bay tree section, which includes a frame 1, and a tree conveying mechanism, a tree pressing mechanism, and a cutting mechanism, which are disposed on the frame, the cutting machine further includes an adjusting mechanism for adjusting the conveying mechanism to adapt to trees of different thicknesses, and the adjusting mechanism is implemented in a form of linkage of a screw and a worm.

Preferably, tree conveying mechanism including set up the first transmission assembly and the second transmission assembly that the structure is the same on frame 1, first transmission assembly and second transmission assembly all include two conveying roller 2 of mutually supporting, through the rotation of two conveying roller 2 to the removal of the trees of drive between two conveying roller 2. In this embodiment, each of the conveying rollers 2 is a motorized roller 31 with a driving motor, and the motorized roller 31 is disposed on a corresponding roller 32. Moreover, in order to increase the friction between the motorized pulley 31 and the wood, the present embodiment arranges a plurality of elongated protrusions 33 on the outer side wall of each motorized pulley 31.

Preferably, in this embodiment, the tree compressing mechanism is disposed above the tree conveying mechanism and cooperates with the tree conveying mechanism to compress the trees, so as to ensure smooth cutting of the trees.

Preferably, the tree pressing mechanism of this embodiment includes a supporting plate 3 disposed at the upper end of the frame, a pressing plate 4, a plurality of pressing wheels 5, and a lifting cylinder 5 for driving the pressing plate 4 to lift, in this embodiment, the supporting plate 3 is disposed on the frame through a plurality of supporting rods, the pressing plate 4 is disposed at the lower end of the supporting plate 3 through a guiding shaft 8 and a bearing, the pressing plate 4 is disposed at the lower end of the pressing plate 4, the plurality of pressing wheels 5 are disposed at the lower end of the pressing plate 4, the plurality of pressing wheels are U-shaped rollers, the U-shaped rollers are disposed on a U-shaped bracket 7 through a connecting shaft, the U-shaped bracket 7 is disposed at the lower end of the pressing plate 4, in this embodiment, the number of the pressing wheels 5 is at least 2, in this embodiment, 4 pressing wheels 5 are employed, so as to ensure the pressing quality, in addition, the pressing plate 4 of this, the piston rod of lift cylinder 6 pass 3 backs downwards and be connected with clamp plate 4, in order to guarantee the data that compress tightly, the quantity of lift cylinder 6 that this embodiment adopted is 2, and concrete 7 quantity of lift cylinders can set up as required.

Preferably, in this embodiment, the adjusting mechanism includes a first adjusting assembly and a second adjusting assembly, the first adjusting assembly is linked with the second adjusting assembly through a worm, and the first adjusting assembly is matched with one group of the transmission assemblies, and the second adjusting assembly is matched with the other group of the transmission assemblies.

Preferably, the first adjusting assembly comprises a first double-headed forward and backward screw 10, a first rocker arm a11, a first rocker arm b12, a first gearwheel a13, a first gearwheel b14 and a first long shaft 15, the lower end of the first long shaft 15 is connected with one end of the worm 9 through a turbine 16, the upper end of the first long shaft 15 is sleeved with a first gearwheel a13 and a first rocker arm a11, and the first gearwheel a13 is meshed with the first gearwheel b14 through a plurality of pinions 17;

a pot head of first rocking arm a11 establish on the roller 32 of one of them motorized pulley 31 of first transmission subassembly, the other end of first rocking arm a11 move the seat a18 through first nut and be connected with the one end of the positive and negative screw rod 10 of first double-end, the other end of the positive and negative screw rod 10 of first double-end on still be provided with first nut and move seat b19, first nut move seat b19 and be connected with the one end of first rocking arm b12, the other end of first rocking arm b12 is connected with the roller 32 of another motorized pulley 31 of first transmission subassembly, and the central authorities of first rocking arm b12 still through corresponding bearing setting on the gear shaft of first gear wheel b 14.

Preferably, the second adjusting group comprises a second rocker arm a20, a second rocker arm b21, a second gearwheel a22, a second gearwheel b23 and a second long shaft 24, the lower end of the second long shaft 24 is connected with the other end of the worm 9 through another turbine 16, the upper end of the second long shaft 24 is sleeved with a second gearwheel a22 and a second rocker arm a20, one end of the second rocker arm a20 is sleeved on the roller 32 of one of the motorized pulleys 31 of the second transmission assembly, the other end of the second rocker arm a20 is suspended, the second bull gear a22 is engaged with the second bull gear b23 through a plurality of small gears 17, the upper end of the gear shaft of the second bull gear b23 is also sleeved with a second rocker arm b21, one end of the second rocker arm b21 is sleeved on the roller 32 of the other electric roller 31 of the second transmission assembly, and the other end of the second rocker arm b21 is suspended.

Preferably, the lower ends of the rollers 32 of the motorized rollers 31 of the first transmission assembly and the second transmission assembly are connected with the corresponding slide rails through the corresponding slide seats.

Preferably, the first double-headed positive and negative screw 10 is provided with positive and negative threads, the first nut moving seat a18 and the first nut moving seat b19 are respectively connected with the positive and negative threads at two ends of the first double-headed positive and negative screw 10, and the first double-headed positive and negative screw 10 is further provided with an adjusting hand wheel 25; when the first double-ended forward and reverse screw 10 is rotated, the first nut moving seat a18 and the first nut moving seat b19 may move toward or toward each other.

In the embodiment, the adjustment of the first adjusting component and the second adjusting component is realized by shaking the adjusting hand wheel 25, so that the synchronous adjustment of a plurality of transmission rollers 2 is realized. In the embodiment, the adjusting handwheel 25 is shaken, the adjusting handwheel 25 drives the first double-headed forward and reverse screw rod 10 to rotate, so that the first nut moving seat a18 and the first nut moving seat b19 on the forward and reverse threads of the first double-headed forward and reverse screw rod 10 are forced to move, the first nut moving seat a18 and the first nut moving seat b19 are respectively clamped on the rear grooves of the first rocker arm a11 and the first rocker arm b12, and the first rocker arm a11 and the first rocker arm b12 rotate clockwise or counterclockwise under the pushing of the first nut moving seat a18 and the first nut moving seat b19, so that the transmission rollers 2 matched with the front grooves of the first rocker arm a11 and the first rocker arm b12 move face to face or back to back.

In order to enable the transmission roller 2 of the second adjusting assembly and the transmission roller 2 of the first adjusting assembly to synchronously move, the first long shaft 15 and the second long shaft 24 are sleeved with corresponding worm wheels 16, and the two worm wheels 16 are respectively meshed with two ends of the worm 9, so that the first adjusting assembly and the second adjusting assembly synchronously move.

Preferably, in this embodiment, the cutting mechanism includes a cutting motor 26, a cutting cylinder 27, and a cutting knife 28, the cutting knife 28 is disposed on a motor shaft of the cutting motor 26, the cutting motor 26 is disposed on an arc handle 29, a lower end of the arc handle 29 is connected to the stand 34 through a rotating shaft 30, a central position of the arc handle 29 is further connected to the cutting cylinder 27, the cutting cylinder 27 is disposed on the stand 34 through a support column 35, and the cutting cylinder 27 controls the arc handle 29 to rotate around the rotating shaft 30, so as to cut the tree.

Preferably, in this embodiment, a material pushing cylinder 36 is further disposed at a position close to the cutting mechanism at the end of the rack 34, the material pushing cylinder 36 is connected with a material pushing plate 37, and the cut wood is pushed out of the rack 34 by the material pushing cylinder 36.

Preferably, the present embodiment further provides a sensor 38 for detecting trees on the rack 34 corresponding to the cutting mechanism.

Before the cutting machine works, the position of the inductor 38 is adjusted according to the requirement, and then the size distance between the conveying rollers 2 is adjusted through the adjusting hand wheel 25. In the embodiment, the conveying roller 2 is an electric roller 31 with a motor, so that the cassia tree strips can be independently clamped left and right and conveyed forwards, meanwhile, the U-shaped roller of the pressing mechanism above the conveying roller is driven by the lifting cylinder 6 to press down the cassia tree strips to limit the movement of the cassia tree strips on the z axis, when the cassia tree strips pass through the cutting mechanism and collide with the sensor 38, the conveying roller 2 stops moving forwards, the cutting cylinder 27 pushes the arc-shaped handle 29 downwards to move, the cutter 28 cuts the cassia tree segments in the moving process, after the cutting of the cassia tree segments is completed, the material pushing cylinder 36 is used to push the cut cassia tree segments away, finally, the conveying roller 2 continues to push the rest of the cassia tree strips forwards until the cassia tree strips collide with the sensor 38 to continue cutting, and then the cycle is repeated until the cutting is completed.

The foregoing embodiments and description have been presented only to illustrate the principles and preferred embodiments of the invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention as hereinafter claimed.

Claims (10)

1. Automatic cutting machine for bay tree sections is characterized in that: the tree cutting machine comprises a machine frame, a tree conveying mechanism, a tree pressing mechanism and a cutting mechanism, wherein the tree conveying mechanism, the tree pressing mechanism and the cutting mechanism are arranged on the machine frame, the cutting machine further comprises an adjusting mechanism used for adjusting the conveying mechanism to be suitable for trees with different thicknesses, and the adjusting mechanism adopts a screw rod and worm linkage structural form to realize synchronous action of a plurality of adjusting components.

2. The automatic cutting machine for the cassia tree section according to claim 1, wherein: the tree conveying mechanism comprises a first conveying assembly and a second conveying assembly which are arranged on the rack and have the same structure, and the first conveying assembly and the second conveying assembly respectively comprise two conveying rollers which are matched with each other.

3. The automatic cutting machine for the cassia tree section according to claim 2, wherein: the conveying roller is an electric roller with a transmission motor, and the electric roller is arranged on the corresponding roller;

and a plurality of strip-shaped convex blocks are uniformly distributed on the outer side wall of each electric roller.

4. The automatic cutting machine for the cassia tree section according to claim 1, wherein: the tree compressing mechanism is arranged above the tree conveying mechanism and is matched with the tree conveying mechanism to compress the trees;

the tree hold-down mechanism including setting up backup pad, clamp plate, a plurality of pinch roller in the frame to and be used for driving the lift cylinder that the pinch roller goes up and down, the clamp plate set up at the backup pad lower extreme through a guiding axle and bearing, the clamp plate lower extreme be provided with a plurality of pinch rollers, and the clamp plate still be connected with the lift cylinder that sets up in the backup pad upper end.

5. The automatic cutting machine for the cassia tree section according to claim 4, wherein: the pinch roller be U type gyro wheel, U type gyro wheel set up on the support of U type through a connecting axle, U type support set up in the clamp plate lower extreme.

6. The automatic cutting machine for the cassia tree section according to claim 1, wherein: the adjusting mechanism comprises a first adjusting component and a second adjusting component, the first adjusting component and the second adjusting component are connected with a worm wheel through corresponding worms, the adjusting component is matched with the first group of transmission components, and the second adjusting component is matched with the second group of transmission components.

7. The automatic cutting machine for the cassia tree section according to claim 6, wherein: the first adjusting component comprises a first double-head positive and negative screw rod, a first rocker arm a, a first rocker arm b, a first gearwheel a, a first gearwheel b and a first long shaft, the lower end of the first long shaft is connected with one end of a worm through a turbine, the upper end of the first long shaft is sleeved with the first gearwheel a and the first rocker arm a, and the first gearwheel a is meshed with the first gearwheel b through a plurality of small gears;

one pot head of first rocking arm a establish on one of them motorized pulley's of first transmission subassembly roller bearing, the other end of first rocking arm a remove one end of seat a and first two-head positive and negative screw rod through first nut and be connected, the other end of first two-head positive and negative screw rod on still be provided with first nut and remove seat b, first nut remove one end of seat b and first rocking arm b and be connected, the other end of first rocking arm b is connected with another motorized pulley's of first transmission subassembly roller bearing, and first rocking arm b's central authorities still set up on first gear wheel b's gear shaft through corresponding bearing.

8. The automatic cutting machine for the cassia tree section according to claim 6, wherein: the second adjust the group and include second rocking arm an, second rocking arm b, second gear wheel a, second gear wheel b, second major axis lower extreme be connected with the other end of worm through another turbine, the upper end cover of second major axis be equipped with second gear wheel a and second rocking arm a, a pot head of second rocking arm a establish on one of them motorized pulley's of second transmission subassembly roller bearing, second rocking arm a's the other end unsettled, second gear wheel a through a plurality of pinions and the mutual meshing of second gear wheel b, and second gear wheel b's gear shaft upper end still the cover be equipped with second rocking arm b, second rocking arm b's a pot head establish on second transmission subassembly another motorized pulley's of second transmission subassembly roller bearing, second rocking arm b's the other end unsettled.

9. The automatic cutting machine for the cassia tree section according to claim 6, wherein: the lower ends of the rolling shafts of the electric rollers of the first transmission assembly and the second transmission assembly are connected with corresponding sliding rails through corresponding sliding seats.

10. The automatic cutting machine for the cassia tree section according to claim 1, wherein: the cutting mechanism comprises a cutting motor, a cutting cylinder and a cutter, the cutting motor is connected with the cutter, the cutting motor is rotatably connected with the rack through an arc-shaped handle, the center of the arc-shaped handle is also connected with the cutting cylinder, the cutting cylinder is arranged on the rack through a support column, and the arc-shaped handle is controlled to lift around the rack through the cutting cylinder, so that the trees are cut;

the cutting mechanism just corresponds still to be provided with the inductor that is used for detecting trees on the frame.

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