CN109089587B - Grafting clamping and cutting mechanism for realizing waste collection - Google Patents

Abstract

The invention discloses a grafting clamping and cutting mechanism for realizing waste collection, which comprises a clamping and cohesion device, a V-shaped pneumatic cutting and transporting device and a waste recycling device, wherein the clamping and cohesion device is provided with a stock supporting platform, a spike supporting platform and a cutting supporting platform; the waste recycling device is provided with a waste collecting barrel which is arranged below the blanking hole. In the cutting process of the mechanism and the method, the cut stock and the cut spike are fixed in a cohesive manner, and the cutting part is supported, so that the waste materials with high cutting stability can be timely discharged, the cutting surface is smooth and flat, the grafting precision anastomosis degree is improved, and the grafting survival rate is improved.

Description

Grafting clamping and cutting mechanism for realizing waste collection

Technical Field

The invention relates to a grafting device for nursery stock, in particular to a grafting clamping and cutting mechanism for realizing waste collection.

Background

Grafting is an effective measure for improving the environmental adaptability of crops such as disease resistance, drought resistance and the like and accelerating the breeding of good varieties. The traditional manual operation mode has the defects of low production efficiency, high labor intensity of workers, low survival rate of grafted seedlings, difficulty in realizing industrial production of seedling culture and the like, and the defects can be effectively avoided by automatic grafting of a machine.

The grape grafting technology is an emerging technology, the survival rate of automatic grafting and seedling raising by using a machine is high, the production efficiency is high, the research and the starting of the domestic automatic grafting machine are relatively late, in recent years, the automatic fruit tree grafting equipment is researched and developed by individual agricultural universities and scientific research institutions in China, but the popularization and the application are more limited due to the factors of low automation degree, complex structure, difficult maintenance and adjustment and the like.

The Chinese patent of the invention of the issued publication number CN 103053344B discloses a nursery stock grafting robot system, which comprises: the frame component is assembled by standard aluminum profiles and is convenient to adjust; the upper seedling transplanting mechanism and the lower seedling transplanting mechanism are similar in structure, are assembled on the upper part and the lower part of the frame assembly through bolts, are adjustable in position and are respectively used for clamping and fixing in the conveying, cutting and jointing processes of spike seedlings and stock seedlings; the left seedling cutting mechanism and the right seedling cutting mechanism are identical in structure, are assembled on the left side and the right side of the frame assembly through bolts, are adjustable in position and are respectively used for cutting omega-shaped corresponding cuts of stock seedlings and spike seedlings; the seedling binding mechanism is assembled at the middle front part of the frame component through bolts and used for completing binding and fixing operation after the stock seedlings and spike seedlings are jointed.

The technical problems are as follows:

the upper seedling transplanting mechanism and the lower seedling transplanting mechanism are respectively matched with the left seedling cutting mechanism and the right seedling cutting mechanism to finish cutting, in the cutting process, the upper seedling transplanting mechanism clamps the seedlings of the spike wood to move to the left seedling cutting mechanism, the cut Miao Dao of the left seedling cutting mechanism cuts an omega-shaped wedge surface on the spike wood Miao Moduan, the seedlings are positioned between the cut Miao Dao and the rubber gasket during cutting, and the seedling cutting knife horizontally moves to finish cutting. In the action process, the top end of the seedling is clamped and fixed, but most of the seedling is not well fixed, so that the precision is reduced in the cutting process; in addition, the cutting is completed in the horizontal direction, the seedling cutter moves to the rubber gasket at the other side, the cutting surface cannot be timely discharged by waste materials in a powerful rolling and cutting mode, the cutting surface can be subjected to plug pressing, so that the cutting surface is not smooth and uneven, and even the cutting position is torn, so that the survival rate and the growth performance of grafting are affected.

Disclosure of Invention

The invention aims to solve the technical problem of providing a grafting clamping and cutting mechanism for realizing waste collection, which is used for holding and fixing cut stocks and scions in the cutting process, and supporting the cutting part, so that the cutting stability is high, the cut waste can be discharged in time, the cut surface is smooth and flat, the grafting precision anastomosis degree is improved, and the grafting survival rate is improved; and the cut waste can directly fall into the waste collection barrel under the action of gravity, so that the waste can be collected in time.

In order to solve the technical problems, the invention adopts the following technical means:

the grafting clamping and cutting mechanism for realizing waste collection comprises a clamping and cohesion device and a V-shaped pneumatic cutting and conveying device, wherein the clamping and cohesion device is provided with a stock supporting platform, a spike supporting platform and a cutting supporting platform, the stock supporting platform and the spike supporting platform are symmetrically arranged on two sides of the top of the cutting supporting platform, arc supporting groove plates are respectively arranged on the stock supporting platform and the spike supporting platform, the arc supporting groove plates are horizontally arranged, the two sides of the arc supporting groove plates are high and low in middle, U-shaped ejection clamping plates are symmetrically arranged on the two sides outside the top of the arc supporting groove plates, openings of the U-shaped ejection clamping plates are oppositely arranged, the back side of the U-shaped ejection clamping plates are connected with an ejection mechanism, the ejection mechanism is respectively fixed on the stock supporting platform and the spike supporting platform, an air cylinder and an air cylinder connecting piece are arranged on the ejection mechanism, and the air cylinder connecting piece is used for connecting a piston rod of the air cylinder and the U-shaped ejection clamping plates, and the U-shaped ejection clamping plates are driven to complete cohesion and shrinkage reset motions by controlling the expansion of the piston rod of the air cylinder; the cutting support platform is characterized in that blanking holes are formed in the middle of the cutting support platform, adjacent ends of arc-shaped support groove plates of the stock support platform and the spike support platform extend to the blanking holes and extend to the upper parts of the blanking holes to form cutting support parts, the cutting support parts protrude out of the U-shaped ejection clamping plates, at least one of the stock support platform and the spike support platform is adjustable in height, the heights of the stock support platform and the spike support platform are different in the cutting process, the V-shaped pneumatic cutting and transporting device is provided with omega-shaped grafting knives, and the omega-shaped grafting knives are driven to move downwards above the blanking holes to cut the stock and the spike clamped and fixed on the stock support platform and the spike support platform; the waste recycling device is provided with a waste collecting barrel, and the waste collecting barrel is arranged below the blanking hole.

Compared with the prior art, the method has the outstanding characteristics that:

(1) Through set up arc support frid respectively on stock supporting platform, spike wood supporting platform, the U type is launched splint, makes the arc support frid that is in the bottom, and the U type that is in upper portion both sides launches splint and forms the centre gripping chamber, can form the cohesion to stock, spike wood and fix, and is fixed more stable.

(2) The adjacent one ends of arc-shaped supporting groove plates on the stock supporting platform and the spike supporting platform extend to the blanking holes, the arc-shaped supporting groove plates extend to the upper parts of the blanking holes to form cutting supporting parts, the cutting supporting parts protrude out of the U-shaped ejection clamping plates, when cutting is conducted, the cutting supporting parts can form good support for cutting positions, the stability of fixing during cutting is further improved, and the accuracy of cutting is improved.

(3) The cutting supporting platform middle part is equipped with the blanking hole, and stock supporting platform, ear wood supporting platform's arc support frid adjacent one end all extends to the blanking hole, extends to blanking hole top formation cutting supporting part, makes the waste material that produces in the cutting process fall into the blanking hole downwards under the promotion of gravity and omega formula grafting-tool, further reduces the cutting face that the waste material can not in time discharge and lead to in the cutting process and causes the stopper to press and make the cutting face unsmooth, uneven, even the cutting department takes place to tear the phenomenon, can effectively improve the survival rate of grafting.

(4) The height of at least one of the stock supporting platform and the spike supporting platform is adjustable, and the heights of the stock supporting platform and the spike supporting platform are different in the cutting process, so that the cut stock and spike are fixed by the clamping and cohesion device, the occlusion of the stock and spike is completed by moving one of the stock supporting platform and the spike supporting platform in the vertical direction, and in the occlusion process, the alignment of the stock and the spike is accurate, the contusion of the cutting surface is further reduced, and the occlusion speed and the survival rate after grafting are improved.

(5) The waste materials generated by cutting the stock and the spike wood in the grafting process can fall into the waste material collecting barrel for centralized collection treatment under the action of gravity, so that the grafting cutting part is further ensured to be clean and tidy, and the waste materials cannot exist at the cutting part, thereby further improving the cutting accuracy.

A further preferred technical scheme is as follows:

the cutting support parts of the arc-shaped support groove plates of the stock support platform and the spike support platform are respectively provided with a cutting groove and a cutting support protrusion which are matched with each other; when the cutting supporting parts of the arc-shaped supporting groove plates of the stock supporting platform and the spike supporting platform are at the same height, the cutting supporting protrusions can be nested in the cutting grooves.

The cross section of the cutting support is smaller than a semicircle.

The arc-shaped supporting groove plates are provided with the cutting grooves and the cutting supporting protrusions which are matched with each other, when the cutting is performed, branches above the corresponding positions of the cutting grooves are cut off, in the cutting process, firstly, the cutting grooves can timely discharge cut waste materials, secondly, the side walls of the arc-shaped supporting groove plates on the two sides of the cutting grooves can support the cut branches, and the arc-shaped supporting groove plates can enable the branches to be better fixed in the cutting process; likewise, the branches of the corresponding parts of the cutting support protrusions are reserved in the cutting process, and the cutting protrusions are arranged firstly, waste materials are discharged on two sides of the cutting support protrusions in time when the cutting protrusions are arranged, and secondly, the cutting support protrusions are provided with a supporting surface with a certain radian and the main body part of the arc-shaped support groove plate connected with the cutting support protrusions simultaneously support the branches to be cut, and the arc shapes can enable the branches to be better fixed in the cutting process and can be better matched with the cutting work of the omega-shaped grafting knife.

The stock supporting platform is fixed on the supporting frame, the spike supporting platform is fixed at the top end of a pneumatic telescopic rod which is vertically arranged, and the pneumatic telescopic rod drives the spike supporting platform to move along the vertical direction.

Through setting up pneumatic telescopic link, can utilize pneumatic telescopic link to accomplish the interlock after the stock, spike wood cutting.

The V-shaped pneumatic cutting and transporting device is provided with V-shaped connecting pieces, the bottoms of the two ends of each V-shaped connecting piece are respectively connected and fixed with an omega-shaped grafting knife and a clamping manipulator, the V-shaped connecting pieces are driven to rotate in the horizontal direction, and the V-shaped connecting pieces are driven to lift in the vertical direction.

Through setting up the V-shaped connecting piece, utilize both ends of V-shaped connecting piece to fix omega type grafting knife, centre gripping manipulator respectively, after finishing cutting with omega type grafting knife, promote and rotate V-shaped connecting piece, make centre gripping manipulator rotate to stock, spike cutting department above, centre gripping manipulator move down, after pressing graft finished stock, spike snap-in joint and grasp stock, spike; and (3) conveying the grafted grape seedlings of the stock and the spike tree by the clamping manipulator, placing the grafted grape seedlings into a grafting conveying device, and conveying the grafted grape seedlings into a next working procedure.

The V-shaped pneumatic cutting and transporting device is provided with a V-shaped rotating assembly, the V-shaped rotating assembly is arranged on one side of the clamping and cohesion device, a rotating platform is arranged at the bottom of the V-shaped rotating assembly, a pneumatic push rod is arranged above the rotating platform, a V-shaped connecting piece is arranged at the top of the pneumatic push rod, and the middle part of the V-shaped connecting piece is connected with the top of the pneumatic push rod.

Through setting up rotary platform, utilize rotary platform drive pneumatic push rod and rather than the fixed V type connecting piece of connection rotatory, pneumatic push rod then can drive V type connecting piece and move in vertical direction to can realize utilizing V type rotating assembly to selectively drive omega type grafting-tool, centre gripping manipulator work, accomplish cutting, the interlock of grafting and stock, spike wood after the interlock carry.

The waste recycling device is provided with a tray platform, the tray platform bears the waste collection barrel, the tray platform is arranged on a sliding block of the linear moving unit, and the sliding block is driven by a stepping motor to move along the linear guide rail.

Through setting up the linear movement unit, can utilize mobile unit to remove the garbage collection bucket in the below of blanking hole, empty garbage collection bucket, then reset empty garbage collection bucket, make things convenient for the collection clearance of waste material.

The top of the waste collection barrel is provided with a sensor.

Through setting up the sensor, can send the signal when the waste material will be full, utilize control system control stepper motor work to shift out the waste collection bucket, realize automated control.

Drawings

Fig. 1 is a schematic general structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic diagram of a stock and spike conveying device according to an embodiment of the present invention.

Fig. 3 is a schematic view of a clamping and clasping device according to an embodiment of the present invention.

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

Fig. 5 is a top view of the clamp hugging device.

Fig. 6 is a schematic view of a V-shaped pneumatic cutting and transporting device according to an embodiment of the present invention.

Fig. 7 is a schematic view of a waste recycling device according to an embodiment of the present invention.

Fig. 8 is a schematic view of a grafting conveying apparatus according to an embodiment of the present invention.

FIG. 9 is a schematic view of a pneumatic rod gripping apparatus according to an embodiment of the present invention.

Fig. 10 is a schematic view of a wax sealing treatment device according to an embodiment of the invention.

Reference numerals illustrate: 1-a stock and spike conveying device; 2-clamping and cohesion devices; 3-V type pneumatic cutting and transporting device; 4-a waste recovery device; 5-grafting conveying device; 6-a pneumatic rod grabbing device; 7-wax sealing treatment device; 8-supporting a platform; 11-a belt conveyor; 12-aluminum profile corner fittings; 13-nylon conveyor belt; 14-correcting splints; 15-a direct-current gear motor; 16-a sprocket drive pair; 17-master; a slave sprocket; 18-a chain; 19-stand columns; 110-pushing guide rails by branches; 21-a supporting frame; 22-a stock support platform; 23-an ejection mechanism; 24-U-shaped ejector clamp plate 24; 25-a spike wood supporting platform; 26-a pneumatic telescopic rod; 27-a cutting support platform; a 31-V-shaped rotating assembly; 32-a base; 33-a rotating platform; 34-pneumatic push rod; a 35-V connector; 36-omega type grafting knife; 37-clamping a manipulator; 241-arc support channel plate; 242-cutting the support; 243-blanking holes; 244-cutting grooves; 245-cutting support protrusions; 246-cylinder; 247-piston rod; 248-cylinder connection; 41-mounting seats; 42-a linear movement unit; 43-stepper motor; 44-a lead screw nut pair; 45-linear guide rails; 46-a tray platform; 47-a waste collection bin; 51-inclined belt conveyor; 52-nylon conveyor belt; 53-corrective splint; 54-direct current gear motor; 55-a sprocket drive pair; 56-main; a slave sprocket; 57-chain; 58-grape branch temporary storage platform; 61-rotating a platform; 62-wax sealing manipulator mechanism; 63-pneumatic push rod; 64-steering engine; 65-steering engine bracket; 66-a manipulator; 71-wax sealing support platform; 72-an electromagnetic heating mechanism; 73-wax sealing; 74-a clean water cooling mechanism; 75-grape branch collection box.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

As shown in fig. 1, the embodiment provides a grafting clamping and cutting mechanism for realizing waste collection, which relates to a grafting machine, wherein the grafting machine consists of a supporting platform 8, a clamping and holding device 2, a V-shaped pneumatic cutting and conveying device 3, a waste recycling device 4, a grafting conveying device 5, a pneumatic rod grabbing device 6 and a wax sealing treatment device 7, and the grafting machine can be applied to grafting of grape hard branches.

The supporting platform 8 is used as a mounting base of each component, and the clamping and cohesion device 2 is arranged on the supporting platform 8 and is used for tightly jointing the stocks and the scion branches after cutting; the V-shaped pneumatic cutting and transporting device 3 is arranged at the rear side of the clamping and cohesion device 2 and is used for cutting the stock and the scion branches and pressing and transporting after cutting is completed; the stock and spike conveying devices 1 which are arranged on the supporting platform 8, have the same structure and are symmetrically arranged at the left side and the right side of the clamping and cohesion device 2 are used for conveying and conveying stocks and spikes; the waste recycling device 4 is arranged on the supporting platform 8 and is used for recycling the cut waste; the grafting conveying device 5 is arranged on the right side of the V-shaped pneumatic cutting conveying device 3 and is used for realizing temporary storage and sequential conveying of branches, so that the mixing of the branches is avoided; the wax sealing treatment device 7 is arranged on the supporting platform 8 and on the right side of the grafting conveying device 5 and is used for sealing, cooling, collecting and other operations of the joints of the stock and the spike wood; and the pneumatic rod grabbing device 6 is arranged between the grafting conveying device 5 and the wax sealing processing device 7 and is used for grabbing the grafted grape seedlings and performing wax sealing processing.

As can be seen from fig. 2, the stock and spike conveying devices 1 having the same structure are provided with: the belt conveyor 11 is fixed on the supporting platform 8 through an aluminum profile corner fitting 12 and bolts; the nylon conveyor belt 13 is provided with a plurality of correction clamping plates 14 with fixed intervals for adjusting the pose of the stock and the spike; the driving motor adopts a direct-current gear motor 15 and is arranged below the nylon conveyor belt 13 and at one side of the driving roller; a chain wheel transmission pair 16 is arranged between the direct-current speed reduction motor 15 and the driving roller and consists of a main chain wheel 17, a secondary chain wheel 17 and a chain 18, wherein the main chain wheel 17 and the secondary chain wheel 17 are respectively assembled on a direct-current speed reduction motor shaft and a driving roller shaft; the direct-current gear motor 15 drives the nylon conveyor belt 13 to move through the chain wheel transmission pair 16 and the driving roller. The upright post 19 is composed of two 2020 aluminum profiles and is fixed at one side of the belt conveyor 11 far away from the clamping and cohesion device 2 through an aluminum profile corner fitting and a bolt. The branch pushing guide rail 110 is fixed above the upright 19 through an aluminum profile corner piece and a bolt, and mainly consists of a pneumatic push rod and a square push block, and can respectively push the stock and the spike to the stock supporting platform 22 and the spike supporting platform 25 so as to facilitate the next cutting operation.

As can be seen from fig. 3, 4 and 5, the clamping and binding device 2 is provided with: support frame 21, stock supporting platform 22, spike supporting platform 25 and cutting supporting platform 27.

The supporting frame 21 is in an upper rectangular frame structure and a lower rectangular frame structure, and is formed by splicing 3030 aluminum profiles through aluminum profile corner fittings and bolts.

The stock supporting platform 22 is fixedly arranged on the left side of the upper part of the supporting frame 21.

The spike wood supporting platform 25 is arranged on the right side of the upper part of the supporting frame 21, and the height of the spike wood supporting platform can be adjusted by using two pneumatic telescopic rods 26 on the lower side.

The stock supporting platform 22 and the spike supporting platform 25 are respectively provided with an arc supporting groove plate 241, the arc supporting groove plates 241 are horizontally arranged, the two sides of the arc supporting groove plates 241 are high and low in the middle, the two sides outside the top of the arc supporting groove plates 241 are symmetrically provided with U-shaped ejection clamping plates 24, the openings of the U-shaped ejection clamping plates 24 are oppositely arranged, the back side of the U-shaped ejection clamping plates 24 is connected with the ejection mechanism 23, the ejection mechanism 23 is provided with a cylinder 246 and a cylinder connecting piece 248, a piston rod 247 of the cylinder 246 is connected with the U-shaped ejection clamping plates 24 through the cylinder connecting piece 248, and the U-shaped ejection clamping plates 24 are driven to carry out ejection expansion and contraction through the cylinder 246; the middle part of the cutting support platform 27 is provided with a blanking hole 243, adjacent ends of the arc-shaped support groove plates 241 of the stock support platform 22 and the spike support platform 25 extend towards the blanking hole 243 and extend to the upper part of the blanking hole 243 to form a cutting support part 242, the cutting support part 242 protrudes out of the U-shaped ejection clamping plate 24, and the cutting support parts 242 of the arc-shaped support groove plates 241 of the stock support platform 22 and the spike support platform 25 are respectively provided with a cutting groove 244 and a cutting support protrusion 245 which are matched with each other; when the cutting support portions 242 of the arc-shaped support channel plates 241 of the stock support platform 22 and the spike support platform 25 are at the same height, the cutting support protrusions 245 may nest within the cutting channels 244. Before cutting, the pneumatic telescopic rod 26 is controlled to enable the spike support platform 25 to have a certain height difference compared with the stock support platform 22, and after cutting is completed, the pneumatic telescopic rod 26 is controlled to drive the spike support platform 25 to move downwards, so that the tight joint of the stock and the spike joint is realized.

The cutting support platform 27 is arranged between the upper part of the support frame 21, the stock and the spike support platforms 22 and 25 and is used for supporting the cutting of the omega-shaped grafting knife 36, the middle part of the cutting support platform is provided with two semicircular blanking holes, and the cut waste falls into the waste recycling device 4 through the holes.

The stock supporting platform 22 is fixed on the supporting frame 21, the spike supporting platform 25 is fixed at the top end of a vertically arranged pneumatic telescopic rod 26, and the pneumatic telescopic rod 26 drives the spike supporting platform 25 to move along the vertical direction.

The ejection mechanism 23 is respectively fixed on the stock supporting platform 22 and the spike supporting platform 15 and mainly comprises an air cylinder 246 and an air cylinder connecting piece 247, wherein the air cylinder connecting piece 247 is used for connecting a piston rod 248 of the air cylinder and the U-shaped ejection clamping plate 24, and the U-shaped ejection clamping plate 24 can be driven to complete cohesion and contraction movement by controlling the extension and contraction of the piston rod 248 of the air cylinder;

in the cutting process, the heights of the stock supporting platform 22 and the spike supporting platform 25 are different, the V-shaped pneumatic cutting and transporting device is provided with an omega-shaped grafting knife 36, and the omega-shaped grafting knife 36 is driven to move downwards above the blanking hole 243 to cut the stock and the spike clamped and fixed on the stock supporting platform 22 and the spike supporting platform 25 successively.

The cross section of the cutting support is smaller than a semicircle.

The arc-shaped supporting groove plates 241 are provided with the mutually matched cutting grooves 244 and the cutting supporting protrusions 245, when in cutting, branches above corresponding positions of the cutting grooves 244 are cut, in the cutting process, firstly, the cutting grooves 244 can timely discharge cut waste materials, secondly, the side walls of the arc-shaped supporting groove plates 241 on two sides of the cutting grooves 244 can support the cut branches, and the arc shapes can enable the branches to be better fixed in the cutting process; likewise, the branches corresponding to the cutting support protrusions 245 are reserved in the cutting process, and the arrangement of the cutting protrusions 245 is that waste materials are discharged in time on two sides of the cutting support protrusions when the cutting protrusions 245 are arranged, and the cutting support protrusions 245 are provided with a support surface with a certain radian and the main body of the arc-shaped support groove plate 241 connected with the cutting support protrusions 245 simultaneously support the branches to be cut, and the arc shapes of the arc-shaped support groove plate support groove plates can enable the branches to be better fixed in the cutting process and can be better matched with the omega-shaped grafting knife 36 to cut.

As can be seen from fig. 6, the V-shaped pneumatic cutting and transporting device 3 is provided with a V-shaped rotating assembly 31, the V-shaped rotating assembly 31 is mounted on the supporting platform 8 through an aluminum profile corner fitting, and is used for clamping one side of the cohesion device 2, the V-shaped rotating assembly 31 is provided with a base 32, a rotating platform 33, a pneumatic push rod 34 and a V-shaped connecting piece 35, and the base 32, the rotating platform 33, the pneumatic push rod 34 and the V-shaped connecting piece 35 are assembled from bottom to top in sequence, so that the V-shaped connecting piece 35 can horizontally rotate and vertically lift relative to the supporting platform 8. The omega-shaped grafting knife 36 consists of a grafting knife holder and an omega-shaped blade, and is arranged at one end of the V-shaped connecting piece 35 through an aluminum profile corner piece, and the position of the omega-shaped grafting knife is adjustable. The clamping manipulator 37 is installed at the other end of the V-shaped connecting piece 35 through an aluminum profile corner piece, and the position of the clamping manipulator is also adjustable. The device can conveniently realize grafting cutting and mechanical grabbing; when receiving a working instruction, the pneumatic push rod 34 drives the omega-shaped grafting knife 36 to move downwards to complete cutting of the stock and the spike wood, and then reset; then, the rotary platform 33 drives the clamping manipulator 37 to rotate to a station, the pneumatic push rod 34 drives the clamping manipulator 37 to move downwards, and the grafting stock and the scion combining point are pressed and grabbed; finally, the pneumatic push rod 34 and the rotary platform 33 are reset in sequence, and the clamping manipulator 37 conveys the grafted grape seedlings to the grafting conveying device for the next step of conveying.

The steering engine of the clamping manipulator 37 controls the linear guide rod to rotate clockwise, and the two ends of the linear guide rod drive the mechanical claws at two sides to move linearly inwards along the linear guide rail through the elliptical guide rod so as to realize the closed grabbing of the mechanical claws. The clamping heads on two sides of the clamping manipulator 37 are rectangular in pressing top, so that the grafting stocks and scions can be pressed conveniently, the inner sides of the clamping heads on two sides of the clamping manipulator 37 are zigzag, and the clamping stability of the stocks and scions can be realized better; one side of the oval guide rod is provided with a groove body structure, so that the guide rail can move conveniently.

The grafting method for realizing the grafting clamping and cutting mechanism for waste collection comprises the following steps:

(1) The stock and the spike wood are respectively conveyed to an arc-shaped supporting groove plate of the stock supporting platform and the spike wood supporting platform;

(2) The U-shaped ejection clamping plate 24 is driven by the ejection mechanism, so that the stock and the spike of the arc-shaped support groove plate are respectively fixed in a cohesion manner through the cooperation of the U-shaped ejection clamping plate 24 and the arc-shaped support groove plate;

(3) The V-shaped pneumatic cutting and transporting device drives the omega-shaped grafting knife to move downwards, and cutting is completed on the grafting positions of the stocks and the scions in sequence;

(4) In the process of downward movement cutting of the omega-shaped grafting knife, waste materials generated by cutting fall into the blanking hole downwards under the action of gravity and the pushing of the omega-shaped grafting knife;

(5) The V-shaped pneumatic cutting and transporting device drives the omega-shaped grafting knife to move upwards for resetting;

(6) The cut stock and spike are held and fixed under the cooperation of the U-shaped ejection clamping plate 24 and the arc-shaped supporting groove plate, and one of the stock supporting platform and the spike supporting platform with adjustable height moves downwards, so that the cutting positions of the stock and the spike are connected together in a meshed mode;

(7) The V-shaped pneumatic cutting and transporting device drives the clamping manipulator 37 to rotate to the grafting station through the rotating platform, and the pneumatic push rod moves to drive the clamping manipulator 37 to move downwards to the junction point of the stock and the spike wood and realize grabbing;

(8) The piston rod 247 of the ejection mechanism cylinder 246 is retracted, the U-shaped ejection clamping plate 24 loosens the stock and the spike wood, and the clamping manipulator 37 drives the jointed stock and spike wood to carry out the next transportation operation;

(9) And one of the stock supporting platform and the spike supporting platform with adjustable height moves upwards to reset and wait for the next work.

As can be seen from fig. 7, the waste recycling device 4 is provided with: the mounting seat 41 is formed by processing standard angle aluminum, is horizontally arranged and is mounted on the supporting platform 8 through bolts and clamps the lower side of the cohesion device 2; the linear moving unit 42 is arranged on the mounting seat and is assembled by a stepping motor 43, a coupler, a screw nut pair 44, a linear guide rail 45 and the like, and the reciprocating movement of the sliding block can be realized by controlling the stepping motor 43; a tray deck 46 mounted on the slider of the linear moving unit 42; a waste collection bin 47 is mounted on the tray deck 46. The linear moving unit 42 can drive the garbage collection barrel 47 to reciprocate along the linear guide rail 45. When the sensors mounted on the edges of the trash can 47 detect that the trash in the can is approaching saturation, the system can control the linear motion unit 42 to act to remove the trash can and send it in after cleaning.

As can be seen from fig. 8, the grafting conveyor 5 is provided with: the inclined belt conveyor 51 is fixed on the supporting platform 8 through aluminum profile corner pieces and bolts and is arranged on the right side of the V-shaped pneumatic cutting and conveying device 3; the nylon conveyer belt 52 is arranged obliquely and is provided with a plurality of correction splints 53 with fixed intervals; the driving motor adopts a direct current speed reducing motor 54 which is arranged below the nylon conveyor belt 52 and at one side of the driving roller; a sprocket drive pair 55 is arranged between the direct-current gear motor 54 and the driving roller and consists of a main sprocket 56, a secondary sprocket 56 and a chain 57, wherein the main sprocket 56 and the secondary sprocket 56 are respectively assembled on a direct-current gear motor shaft and a driving roller shaft. Grape branch temporary storage platform 58 is made of standard angle aluminum, and a rectangular groove is formed in the center of the grape branch temporary storage platform, so that the grape branch temporary storage platform is convenient for a wax sealing manipulator mechanism to grasp.

As can be seen from fig. 9, the air bar gripping device 6 is provided with: the rotating platform 61 is arranged between the grafting conveying device 5 and the wax sealing processing device 7, and can realize 360-degree dead-angle-free rotation relative to the supporting platform 8; the wax sealing manipulator mechanism 62 consists of a pneumatic push rod 63, a steering engine 64, a steering engine bracket 65 and a manipulator 66. The pneumatic rod grabbing device is responsible for grabbing grafted seedlings from the grape branch temporary storage platform and carrying the grafted seedlings to finish the processes of wax sealing, cooling, collecting and the like of the grafted positions.

As can be seen from fig. 10, the wax sealing device 7 is provided with: the wax seal supporting platform 71 is U-shaped and is arranged on the supporting platform 8 and on the right side of the grafting conveying device 5 through an aluminum profile corner fitting; the electromagnetic heating mechanism 72 is arranged at the front part of the wax sealing supporting platform 71 and is used for heating the paraffin in the wax sealing box 73, and a temperature sensor is arranged on the electromagnetic heating mechanism and can always control the paraffin temperature in the wax sealing box 73 in a reasonable range; a wax sealing box 73 which is arranged on the electromagnetic heating mechanism 72 and is internally provided with grafting wax; the clear water cooling mechanism 74 is arranged at the right end of the middle part of the wax seal supporting platform 71, and is filled with clear water for cooling, so that the branches subjected to the wax seal treatment are subjected to cooling treatment; a grape branch collection bin 75 is mounted to the rear of the wax-sealed support platform 71 for collecting the wax-sealed grape branches.

The specific working mode of this embodiment is as follows:

a1: the belt conveyor 11 is started, the stock and the scion are respectively placed on the nylon conveyor belt 13 of the stock and scion conveyor device 1 and between the two correcting clamping plates 14, and the stock and the scion move along with the nylon conveyor belt 13.

A2: when the stock and the spike are moved to the designated positions (aligned with the stock supporting platform 22 and the spike supporting platform 25), the belt conveyor 11 is suspended; the system controls the movement of the branch pushing guide rail 110 to push the stock and the spike wood to the stock supporting platform 22 and the spike wood supporting platform 25 respectively; and then the piston rods 248 of the cylinders at the two sides are controlled to extend out, so that the U-shaped ejection clamping plates 24 at the two sides are ejected to clamp and clamp the branches of the stock and the scion, thereby facilitating the cutting grafting of the stock and the scion in the next step.

A3: the rotating platform 33 of the V-shaped pneumatic cutting and transporting device 3 moves to rotate the omega-shaped grafting knife 36 to the grafting station; then, the pneumatic push rod 34 moves to drive the omega-shaped grafting knife 36 to move downwards to finish cutting; after cutting is finished, the pneumatic push rod 34 drives the omega-shaped grafting knife 36 to reset; simultaneously, two pneumatic telescopic rods 26 of the clamping and cohesion device 2 are pressed downwards, so that the scion wood and the stock are joined.

A4: the rotary platform 33 of the V-shaped pneumatic cutting and transporting device 3 moves to rotate the clamping manipulator 37 to the grafting station; then, the pneumatic push rod 34 moves to drive the clamping manipulator 37 to press the junction point of the stock and the spike wood downwards, so that the junction tightness is improved, and the gripping is performed immediately; then, the pneumatic push rod 34 and the rotary platform 33 are controlled to act, so that the clamping manipulator 37 moves to the grafting conveying device 5 with the grafted seedlings, the grafted seedlings are conveyed to the grape branch temporary storage platform 58 through the inclined belt conveyor 51, and the wax sealing manipulator mechanism 62 waits for grabbing and conveying the grafted seedlings to the wax sealing processing device 7.

A5: the wax sealing treatment device 7 is mainly used for wax sealing collection treatment of grafted seedlings, and firstly, the electromagnetic heating mechanism 72 heats grafted wax in the wax sealing box 73, and the temperature of the grafted wax in the wax sealing box is controlled to be always in a reasonable range through detection of the temperature sensor; after the grafted seedlings are taken out of the grape branch temporary storage platform 58 by the wax sealing manipulator mechanism 62, the grafted seedlings are rotated at a certain angle through the steering engine 64 and the steering engine bracket 65, and are driven into the wax sealing box 73 through the rotating platform 61 to carry out wax sealing treatment, so that the wax sealing treatment of the joint is facilitated, and the wax sealing efficiency is improved; then the grape seedlings are placed into a clean water cooling mechanism 74 for cooling treatment, and finally the treated grape seedlings are placed into a grape branch collecting box 75 for storage.

A6: in the step A3, the waste formed by cutting the stock and the spike falls into the waste collecting barrel 47 through the blanking hole of the cutting supporting platform 27, the sensor at the edge of the waste collecting barrel 47 can detect whether the waste in the barrel is close to saturation or not at all times, if so, the operation of A1-A4 is stopped, the system controls the linear moving unit 42 to act, the waste collecting barrel 47 is moved out, the waste collecting barrel 47 is sent in after the waste collecting barrel is cleaned, and the operation of A1-A4 is resumed.

In conclusion, the grafting machine can automatically complete the working processes of grafting cutting, jointing, wax sealing, collecting and the like of grape stocks and scions.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the scope of the claims, but rather the equivalent structural changes made by the application of the present description and drawings are intended to be included within the scope of the claims.

Claims (5)

1. Realize grafting centre gripping and cutting mechanism of garbage collection, including centre gripping cohesion device, V type pneumatic cutting conveyer and waste recovery device, its characterized in that: the clamping and cohesion device is provided with a stock supporting platform, a spike supporting platform and a cutting supporting platform, wherein the stock supporting platform and the spike supporting platform are symmetrically arranged on two sides of the top of the cutting supporting platform, arc supporting groove plates are respectively arranged on the stock supporting platform and the spike supporting platform, the arc supporting groove plates are horizontally arranged, the middle of the two sides of each arc supporting groove plate is high, U-shaped ejection clamping plates are symmetrically arranged on two sides of the outer side of the top of each arc supporting groove plate, openings of the U-shaped ejection clamping plates are relatively arranged, the back side of each U-shaped ejection clamping plate is connected with an ejection mechanism, the ejection mechanism drives the U-shaped ejection clamping plates, blanking holes are formed in the middle of the cutting supporting platform, adjacent ends of the arc supporting groove plates of the stock supporting platform and the spike supporting platform extend to the blanking holes, a cutting supporting part is formed above the blanking holes, the cutting supporting part protrudes out of the U-shaped ejection clamping plates, the stock supporting platform and the spike supporting platform are adjustable in height, the stock supporting platform and the spike supporting platform are different in height, the V-shaped pneumatic cutting and conveying device is provided with omega-shaped blanking knives, and the grafting knives are fixedly arranged above the stock supporting platform and the stock supporting platform in a cutting mode, and the scion the stock supporting platform is successively.

2. The grafting clamping and cutting mechanism for achieving waste collection according to claim 1, wherein: the cutting support parts of the arc-shaped support groove plates of the stock support platform and the spike support platform are respectively provided with a cutting groove and a cutting support protrusion which are matched with each other; when the cutting supporting parts of the arc-shaped supporting groove plates of the stock supporting platform and the spike supporting platform are at the same height, the cutting supporting parts are embedded in the cutting groove in a protruding mode.

3. The grafting clamping and cutting mechanism for achieving waste collection according to claim 1, wherein: the stock supporting platform is fixed on the supporting frame, the spike supporting platform is fixed at the top end of a pneumatic telescopic rod which is vertically arranged, and the pneumatic telescopic rod drives the spike supporting platform to move along the vertical direction.

4. The grafting clamping and cutting mechanism for achieving waste collection according to claim 1, wherein: the V-shaped pneumatic cutting and transporting device is provided with V-shaped connecting pieces, the bottoms of the two ends of each V-shaped connecting piece are respectively connected and fixed with an omega-shaped grafting knife and a clamping manipulator, the V-shaped connecting pieces are driven to rotate in the horizontal direction, and the V-shaped connecting pieces are driven to lift in the vertical direction.

5. The grafting clamping and cutting mechanism for achieving waste collection according to claim 4, wherein: the V-shaped pneumatic cutting and transporting device is provided with a V-shaped rotating assembly, the V-shaped rotating assembly is arranged on one side of the clamping and cohesion device, a rotating platform is arranged at the bottom of the V-shaped rotating assembly, a pneumatic push rod is arranged above the rotating platform, a V-shaped connecting piece is arranged at the top of the pneumatic push rod, and the middle part of the V-shaped connecting piece is connected with the top of the pneumatic push rod.