CN112568088A

CN112568088A - Automatic rubber tapping and collecting equipment for rubber trees

Info

Publication number: CN112568088A
Application number: CN202110025853.0A
Authority: CN
Inventors: 侯弥
Original assignee: Shanghai Neiji Trading Co ltd
Current assignee: Shanghai Neiji Trading Co ltd
Priority date: 2021-01-08
Filing date: 2021-01-08
Publication date: 2021-03-30

Abstract

The invention discloses an automatic rubber tapping and collecting device for rubber trees, which comprises a mounting block, wherein a collecting mechanism is arranged on the mounting block, the collecting mechanism comprises a collecting rotating motor fixedly connected to the mounting block, and a rotating motor shaft rotatably connected to the collecting rotating motor, the automatic rubber tapping and collecting device for rubber trees is characterized in that the device is wrapped on the surface of a rubber tree in a rotating mode before rubber collection, the surface of the rubber tree is cut through a spiral chute, the chute is cut, a drainage plate can be automatically inserted onto the rubber tree after the cutting is finished, the flow guiding effect is achieved, the full-automatic cutting and collecting which is not achieved at present is achieved, a plurality of collecting barrels are arranged, after one collecting barrel is completely collected, the device is rotated through gravity induction, and the collection of the next collecting barrel is started, the trouble that the existing collecting device collects the information individually and needs to check the information frequently is avoided.

Description

Automatic rubber tapping and collecting equipment for rubber trees

Technical Field

The invention relates to the field of rubber, in particular to automatic rubber tapping and collecting equipment for a rubber tree.

Background

The rubber is a high-elasticity polymer material with reversible deformation, has elasticity at room temperature, can generate large deformation under the action of small external force, can recover the original shape after the external force is removed, and is divided into two types of natural rubber and synthetic rubber. Natural rubber is made by extracting colloid from plants such as rubber trees, rubber grasses and the like and then processing the extracted colloid, however, when the rubber is collected from the rubber trees, the rubber trees are often required to be manually cut, and collection equipment is prevented, and the rubber collection degree of the collection equipment is checked at regular time, so that the natural rubber is very inconvenient. .

Disclosure of Invention

The invention aims to provide automatic rubber tapping and collecting equipment for rubber trees, which overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to automatic rubber tapping and collecting equipment for rubber trees, which comprises a mounting block, wherein a collecting mechanism is arranged on the mounting block, the collecting mechanism comprises a collecting rotating motor fixedly connected to the mounting block, a rotating motor shaft rotatably connected to the collecting rotating motor is arranged on the collecting rotating motor, a rotating connecting rod fixedly connected to the rotating motor shaft is arranged on the rotating motor shaft, a rotating supporting block fixedly connected to the rotating motor shaft is arranged on the rotating motor shaft, a connecting rod fixedly connected to the rotating connecting rod is arranged on the rotating connecting rod, a rotating supporting ring fixedly connected to the connecting rod is arranged on the connecting rod, a clamping supporting cavity is arranged between the rotating supporting block and the rotating supporting ring, a plurality of circumferential arrays are arranged on the clamping supporting cavity and the rotating motor shaft, a supporting chute with an inward opening is arranged on the rotating supporting ring, a supporting spring fixedly connected to the supporting chute is internally, the supporting slide bar is fixedly connected with the supporting spring, the supporting slide bar is provided with a fixedly connected clamping supporting block, the clamping supporting block is provided with a slidably connected collecting barrel, the rotating supporting block is provided with the same supporting chutes which are bilaterally symmetrical with respect to the collecting barrel, the collecting barrel can be clamped by the clamping supporting block, the placing block is internally provided with a slidably connected rotating slide bar which is fixedly connected with the connecting rod, the placing block is internally provided with an L-shaped chute with an upward opening, the inner wall of the right side of the L-shaped chute is mutually communicated with the collecting rotating motor, the right side of the L-shaped chute is internally provided with a fixedly connected transverse supporting spring, the L-shaped chute is internally provided with a slidably connected pushing block which is fixedly connected with the transverse supporting spring, and the right end face of the pushing block is provided with a fixedly connected starting switch, the inner wall of the lower side of the L-shaped sliding chute is provided with a fixedly connected longitudinal supporting spring, a pushing sliding rod in sliding connection is arranged in the L-shaped sliding chute, the pushing sliding rod is fixedly connected with the longitudinal supporting spring, and a pushing sliding block in fixed connection is arranged on the pushing sliding rod;

the rotary connecting block is provided with a cutting mechanism, the cutting mechanism comprises a cutting mounting block fixedly connected with the rotary connecting block, the cutting mounting block is provided with a spiral chute with a forward opening, a cutting moving ball which is connected in a sliding way is arranged in the spiral chute, the cutting moving ball is provided with a cutting connecting rod which is rotatably connected, the cutting connecting rod is provided with a cutting hydraulic machine which is fixedly connected, the cutting hydraulic press is provided with a fixedly connected cutting hydraulic block, the cutting hydraulic block is provided with a cutting hydraulic cavity with a right lower opening, a cutting connecting spring which is fixedly connected is arranged on the inner wall of the left upper side of the cutting hydraulic cavity, a cutting hydraulic slide block which is connected in a sliding way is arranged in the cutting hydraulic cavity, the cutting hydraulic sliding block is fixedly connected with the cutting connecting spring, and a cutting knife which is fixedly connected is arranged on the cutting hydraulic sliding block.

Preferably, the right end face of the placement block is provided with a fixedly connected hydraulic machine, the hydraulic machine is provided with a fixedly connected hydraulic block, the hydraulic block is provided with a hydraulic cavity with an upward opening, a slidably connected hydraulic slide rod is arranged in the hydraulic cavity, the hydraulic slide rod is provided with a fixedly connected rotating motor, the rotating motor is provided with a rotatably connected cutting motor rotating shaft, and the cutting motor rotating shaft is provided with a fixedly connected rotating connecting block.

Preferably, the cutting mechanism further comprises a motor slider slot with an upward opening on the cutting setting block, a motor sliding block which is connected in a sliding way is arranged in the motor sliding block groove, a sliding motor which is connected in a sliding way is arranged on the cutting placement block, the sliding motor is fixedly connected with the motor sliding block, a sliding motor rotating shaft which is connected in a rotating way is arranged on the sliding motor, a sliding meshing gear fixedly connected with the sliding motor rotating shaft is arranged on the sliding motor rotating shaft, a meshing inner gear fixedly connected with the cutting mounting block is arranged on the cutting mounting block, the upper end face and the right end face of the sliding motor are provided with lifting connecting blocks which are fixedly connected, lifting connecting sliding rods which are connected in a sliding manner are arranged on the lifting connecting blocks, the lifting connection sliding rod is provided with a connection bearing fixedly connected, the connection bearing is rotatably connected with the cutting connection rod, and the sliding engagement gear is meshed with the engagement inner gear.

Preferably, the cutting placement block is provided with a reel motor cavity with a leftward opening, the reel motor cavity is internally provided with a fixedly connected reel motor, the reel motor is provided with a rotatably connected reel motor shaft, the reel motor shaft is provided with a fixedly connected reel, the cutting placement block is provided with a guide plate chute with a leftward opening, the inner wall of the right side of the guide plate chute is provided with a fixedly connected guide plate supporting spring, the guide plate chute is internally provided with a slidably connected guide plate rotating motor, the guide plate rotating motor is fixedly connected with the guide plate supporting spring, the guide plate supporting spring is provided with a rotatably connected guide plate rotating motor shaft, the guide plate rotating motor shaft is provided with a fixedly connected guide plate rotating block, the guide plate rotating block is provided with a guide plate clamping chute with a leftward opening, the improved guide plate clamping device is characterized in that a compression spring of fixed connection is arranged in the guide plate clamping sliding groove, a hydraulic pushing plate of sliding connection is arranged in the guide plate clamping sliding groove, the hydraulic pushing plate is fixedly connected with the compression spring, a guide plate clamping sliding block of sliding connection is arranged in the guide plate clamping sliding groove, the guide plate clamping sliding block is about two compression springs are arranged in longitudinal symmetry, a guide plate clamping shaft of fixed connection is arranged on the guide plate clamping sliding block, a guide plate clamping block of fixed connection is arranged on the guide plate clamping shaft, and a guide plate is arranged between the guide plate clamping blocks in a clamping manner.

Preferably, the winding wheel is fixedly connected with the deflector rotating motor through a winding wire, the deflector can be inserted on a rubber tree fixedly connected with the ground to play a role of drainage, so that glue solution on the rubber tree flows into the collecting barrel, the rubber tree can be scraped by the cutting knife to open a slot, and the deflector can be just inserted at the edge of the slot and the rubber tree.

The invention has the beneficial effects that: the invention relates to an automatic rubber tapping and collecting device for rubber trees, which is characterized in that the device is wrapped on the surface of a rubber tree in a rotating mode before rubber collection, the surface of the rubber tree is cut into chutes through spiral chutes, and after the rubber tree is cut, drainage plates can be automatically inserted into the rubber tree to play a role in guiding flow, so that the full-automatic cutting and collection which is not available at present is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is an enlarged view of the position B-B in FIG. 2 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The automatic rubber tapping and collecting device for rubber trees, which is described in conjunction with the attached drawings 1-3, comprises a mounting block 10, a collecting mechanism 80 is arranged on the mounting block 10, the collecting mechanism 80 comprises a collecting rotating motor 12 fixedly connected to the mounting block 10, a rotating motor shaft 21 rotatably connected to the collecting rotating motor 12, a rotating connecting rod 22 fixedly connected to the rotating motor shaft 21 is arranged on the rotating motor shaft 21, a rotating supporting block 23 fixedly connected to the rotating motor shaft 21 is arranged on the rotating connecting rod 22, a connecting rod 20 fixedly connected to the rotating connecting rod 22 is arranged on the connecting rod 20, a rotating supporting ring 24 fixedly connected to the connecting rod 20 is arranged on the connecting rod, a clamping supporting cavity 74 is arranged between the rotating supporting ring 23 and the rotating supporting ring 24, a plurality of circumferential arrays are arranged in relation to the rotating motor shaft 21 in the clamping supporting cavity 74, and a supporting chute 25 with an, a fixedly connected supporting spring 26 is arranged in the supporting chute 25, a slidably connected supporting slide bar 27 is arranged in the supporting chute 25, the supporting slide bar 27 is fixedly connected with the supporting spring 26, a fixedly connected clamping supporting block 28 is arranged on the supporting slide bar 27, a slidably connected collecting barrel 29 is arranged on the clamping supporting block 28, the same supporting chute 25 is arranged on the rotating supporting block 23, the supporting chute 25 is bilaterally symmetrical with respect to the collecting barrel 29, the collecting barrel 29 can be clamped by the clamping supporting block 28, a slidably connected rotating slide bar 11 is arranged in the mounting block 10, the rotating slide bar 11 is fixedly connected with the connecting rod 20, an upward-opening L-shaped chute 13 is arranged in the mounting block 10, the inner wall of the right side of the L-shaped chute 13 is mutually communicated with the collecting rotating motor 12, and a fixedly connected transverse supporting spring 16 is arranged in the right side of the L-shaped chute 13, a pushing block 14 in sliding connection is arranged in the L-shaped sliding groove 13, the pushing block 14 is fixedly connected with the transverse supporting spring 16, a starting switch 15 in fixed connection is arranged on the right end face of the pushing block 14, a longitudinal supporting spring 17 in fixed connection is arranged on the inner wall of the lower side of the L-shaped sliding groove 13, a pushing sliding rod 18 in sliding connection is arranged in the L-shaped sliding groove 13, the pushing sliding rod 18 is fixedly connected with the longitudinal supporting spring 17, and a pushing sliding block 19 in fixed connection is arranged on the pushing sliding rod 18;

the cutting mechanism 81 is arranged on the rotary connecting block 35, the cutting mechanism 81 comprises a cutting arranging block 36 fixedly connected with the rotary connecting block 35, a spiral chute 73 with a forward opening is arranged on the cutting arranging block 36, a cutting moving ball 37 in sliding connection is arranged in the spiral chute 73, a cutting connecting rod 38 in rotating connection is arranged on the cutting moving ball 37, a cutting hydraulic machine 48 in fixed connection is arranged on the cutting connecting rod 38, a cutting hydraulic block 49 in fixed connection is arranged on the cutting hydraulic machine 48, a cutting hydraulic cavity 50 with a downward opening is arranged on the cutting hydraulic block 49, a cutting connecting spring 52 in fixed connection is arranged on the inner wall of the upper left side of the cutting hydraulic cavity 50, a cutting hydraulic sliding block 53 in sliding connection is arranged in the cutting hydraulic cavity 50, and the cutting hydraulic block 53 is fixedly connected with the cutting connecting spring 52, and a cutting knife 54 fixedly connected is arranged on the cutting hydraulic slide block 53.

Beneficially, a fixedly connected hydraulic machine 30 is arranged on the right end face of the mounting block 10, a fixedly connected hydraulic block 31 is arranged on the hydraulic machine 30, a hydraulic cavity 32 with an upward opening is arranged on the hydraulic block 31, a slidably connected hydraulic slide bar 33 is arranged in the hydraulic cavity 32, a fixedly connected rotating motor 34 is arranged on the hydraulic slide bar 33, a rotatably connected cutting motor rotating shaft 51 is arranged on the rotating motor 34, and a fixedly connected rotating connecting block 35 is arranged on the cutting motor rotating shaft 51.

Advantageously, the cutting mechanism 81 further comprises a motor slider groove 44 with an upward opening on the cutting placement block 36, a motor slider 43 with a sliding connection is arranged in the motor slider groove 44, a sliding motor 40 with a sliding connection is arranged on the cutting placement block 36, the sliding motor 40 is fixedly connected with the motor slider 43, a sliding motor rotating shaft 41 with a rotating connection is arranged on the sliding motor 40, a sliding engagement gear 42 with a fixed connection is arranged on the sliding motor rotating shaft 41, an engagement inner gear 39 with a fixed connection is arranged on the cutting placement block 36, a lifting connection block 45 with a fixed connection is arranged on the right end face of the sliding motor 40, a lifting connection sliding rod 46 with a sliding connection is arranged on the lifting connection sliding block 45, a connection bearing 47 with a fixed connection is arranged on the lifting connection sliding rod 46, and the connection bearing 47 is rotatably connected with the cutting connection rod 38, the sliding engagement gear 42 and the internal gear 39 are engaged with each other.

Beneficially, a reel motor cavity 55 with a leftward opening is formed on the cutting placement block 36, a fixedly connected reel motor 56 is arranged in the reel motor cavity 55, a rotatably connected reel motor shaft 58 is arranged on the reel motor 56, a fixedly connected reel 57 is arranged on the reel motor shaft 58, a deflector chute 59 with a leftward opening is formed on the cutting placement block 36, a fixedly connected deflector support spring 60 is arranged on the inner wall of the right side of the deflector chute 59, a slidably connected deflector rotation motor 61 is arranged in the deflector chute 59, the deflector rotation motor 61 is fixedly connected with the deflector support spring 60, a rotatably connected deflector rotation motor shaft 62 is arranged on the deflector support spring 60, a fixedly connected deflector rotation block 63 is arranged on the deflector rotation motor shaft 62, and the left-opening deflector clamping chute 65 is arranged on the deflector rotation block 63, be equipped with fixed connection's compression spring 67 in guide plate centre gripping spout 65, be equipped with sliding connection's hydraulic pressure impeller 68 in the guide plate centre gripping spout 65, hydraulic pressure impeller 68 with compression spring 67 fixed connection, be equipped with sliding connection's guide plate centre gripping slider 70 in the guide plate centre gripping spout 65, guide plate centre gripping slider 70 about compression spring 67 is equipped with two of longitudinal symmetry, be equipped with fixed connection's guide plate centre gripping axle 66 on the guide plate centre gripping slider 70, be equipped with fixed connection's guide plate grip block 64 on the guide plate centre gripping axle 66, the centre gripping is equipped with guide plate 69 between the guide plate grip block 64.

Advantageously, the reel 57 is fixedly connected to the deflector rotation motor 61 by a winding wire, the deflector 69 can be inserted on a rubber tree 71 fixedly connected to the ground to perform a flow guiding function, so that the glue on the rubber tree 71 flows into the collecting tank 29, and the rubber tree 71 can be scraped by the cutter 54 to form a slot 72, and the deflector 69 can be inserted right at the edge of the slot 72 and the rubber tree 71.

In the initial state, the deflector rotation block 63 is in a horizontal state, the compression spring 67 is in a normal state, the lateral support spring 16 is in a normal state, the longitudinal support spring 17 is in a normal state, the support spring 26 is in a compressed state and can clamp the collection barrel 29, the hydraulic slide bar 33 is located at the lowermost end of the hydraulic chamber 32, the deflector clamp slider 70 is located at the leftmost end of the deflector clamp slide groove 65, and the cutting movement ball 37 is located at the upper left side of the cutting placement block 36.

Application method

When the cutting device is used, the hydraulic machine 30 is started, the hydraulic machine 30 injects hydraulic oil into the hydraulic cavity 32, the hydraulic slide bar 33 is pushed to move upwards, the hydraulic slide bar 33 drives the rotating motor 34 to move upwards, the rotating motor 34 drives the cutting motor rotating shaft 51 to move upwards, the cutting motor rotating shaft 51 drives the rotating connecting block 35 to move upwards, the rotating connecting block 35 drives the collecting mechanism 80 to move upwards, when the cutting device moves to a position needing to be cut, the hydraulic machine 30 is closed, meanwhile, the cutting motor rotating shaft 51 is started, the cutting motor rotating shaft 51 drives the rotating connecting block 35 to rotate, the rotating connecting block 35 drives the cutting arranging block 36 to rotate, so that the cutting arranging block 36 can be buckled on the rubber tree 71, and at the moment, the cutting hydraulic machine 48 is started, the cutting hydraulic machine 48 injects hydraulic oil into the cutting hydraulic cavity 50 to push the cutting hydraulic slide block 53 to move downwards and rightwards, the cutting hydraulic slide block 53 drives the cutting knife 54 to move downwards and rightwards, so that the cutting knife 54 can be inserted into the rubber tree 71 to a certain depth, at this time, the sliding motor 40 is started, the sliding motor 40 drives the sliding motor rotating shaft 41 to rotate, the sliding motor rotating shaft 41 drives the sliding engagement gear 42 to rotate, the sliding engagement gear 42 rotates along the engagement inner gear 39 due to the mutual engagement with the engagement inner gear 39, the sliding engagement gear 42 drives the sliding motor rotating shaft 41 to rotate, the sliding motor rotating shaft 41 drives the sliding motor 40 to rotate, and the sliding motor 40 drives the motor slide block 43 to slide in the motor slide block groove 44, the sliding motor 40 simultaneously drives the lifting connecting block 45 to rotate, the lifting connecting block 45 drives the lifting connecting slide rod 46 to rotate, the lifting connecting slide rod 46 drives the cutting connecting rod 38 to rotate, the cutting connecting rod 38 drives the cutting moving ball 37 to rotate along the spiral chute 73, the cutting moving ball 37 drives the cutting connecting rod 38 to move, the cutting connecting rod 38 drives the cutting hydraulic press 48 to move, the cutting hydraulic press 48 drives the cutting hydraulic block 49 to move, the cutting hydraulic block 49 drives the cutting hydraulic slide block 53 to move, the cutting hydraulic slide block 53 drives the cutting knife 54 to move, the cutting knife 54 can form the slot 72 around the rubber tree 71, at this time, the cutting connecting rod 38 drives the connecting bearing 47 to move downwards due to the rotation and the descending of the cutting connecting rod 38 around the rubber tree 71, the connecting bearing 47 drives the lifting connecting sliding rod 46 to move downwards, the lifting connecting sliding rod 46 slides along the lifting connecting block 45, after the slot 72 is formed, the sliding motor 40 rotates reversely to return to the initial position, at this time, the reel motor 56 is started, the reel motor 56 drives the reel motor shaft 58 to rotate, the reel motor shaft 58 drives the reel 57 to rotate, the winding wire on the reel 57 is loosened, the deflector rotating motor 61 moves leftwards due to the elastic force of the deflector supporting spring 60, the deflector rotating motor 61 is simultaneously started to drive the deflector rotating motor shaft 62 to rotate, the deflector rotating motor shaft 62 drives the deflector rotating block 63 to rotate clockwise by a certain angle, and the deflector rotating block 63 drives the deflector clamping block 64 to rotate, the deflector holding block 64 holds the deflector 69 and rotates a certain angle, at the same time, the deflector holding block 64 holds the deflector 69 close to the rubber tree 71, when the deflector 69 is inserted on the rubber tree 71, the deflector holding block 64 is pushed to move to the right, the deflector holding block 64 drives the deflector holding shaft 66 to move to the right, the deflector holding shaft 66 drives the deflector holding slider 70 to move to the right, the rubber tree 71 moves to the right along the guide 75, when the rubber tree 71 moves along the deflector holding chute 65, the deflector holding sliders 70 move away from each other along the deflector holding chute 65, at this time, the deflector holding slider 70 drives the deflector holding shafts 66 to move away from each other, the deflector holding shafts 66 drive the deflector holding blocks 64 to move away from each other, the guide plate holding chute 65 no longer holds the guide plate 69, so that the guide plate 69 can be inserted on a book, and the guide plate rotating motor 61 is retracted, at this time, glue drops along the guide plate 69 to the collecting barrel 29 to perform a collecting function, along with the increase of the glue drops, the collecting barrel 29 descends continuously due to gravity, the holding support blocks 28 are continuously separated, and the collecting barrel 29 pushes the pushing slider 19 to move downwards, the pushing slider 19 pushes the pushing block 14 to move rightwards, the pushing block 14 drives the starting switch 15 to move rightwards, when a certain weight is collected = at this time, the starting switch 15 and the collecting rotating motor 12 contact each other, at this time, the rotating motor shaft 21 is started, and the rotating motor shaft 21 drives the rotating connecting rod 22 to rotate, the rotating connecting rod 22 drives the connecting rod 20 to rotate, the connecting rod 20 drives the rotating support ring 24 to rotate, the rotating motor shaft 21 drives the rotating support block 23 to rotate at the same time, the rotating support block 23 and the rotating support ring 24 rotate by a certain angle to drive the clamping support block 28 to rotate by a certain angle, the clamping support block 28 clamps the collecting bucket 29 to rotate by a certain angle, so that the new collecting bucket 29 is located at a collecting position until the collecting bucket 29 is fully filled, and the whole movement process is finished.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an automatic rubber tapping collecting device of rubber tree, is including settling the piece, its characterized in that: the collecting mechanism is arranged on the mounting block and comprises a collecting rotating motor fixedly connected to the mounting block, a rotating motor shaft rotatably connected to the collecting rotating motor is arranged on the collecting rotating motor, a rotating connecting rod fixedly connected to the rotating motor shaft is arranged on the rotating motor shaft, a rotating supporting block fixedly connected to the rotating motor shaft is arranged on the rotating connecting rod, a connecting rod fixedly connected to the rotating connecting rod is arranged on the connecting rod, a rotating supporting ring fixedly connected to the connecting rod is arranged on the connecting rod, a plurality of clamping supporting cavities are arranged between the rotating supporting block and the rotating supporting ring, the clamping supporting cavities are provided with a plurality of circumferential arrays relative to the rotating motor shaft, a supporting chute with an inward opening is arranged on the rotating supporting ring, a supporting spring fixedly connected to the supporting chute is arranged in the supporting chute, a supporting slide rod in sliding connection is arranged in, the supporting slide bar is provided with fixedly connected clamping supporting blocks, the clamping supporting blocks are provided with slidably connected collecting barrels, the rotating supporting blocks are provided with the same supporting chutes which are bilaterally symmetrical with respect to the collecting barrels, the collecting barrels can be clamped by the clamping supporting blocks, the arranging blocks are internally provided with slidably connected rotating slide bars which are fixedly connected with the connecting rods, the arranging blocks are internally provided with L-shaped slide grooves with upward openings, the right inner walls of the L-shaped slide grooves are mutually communicated with the collecting rotating motor, the right sides of the L-shaped slide grooves are internally provided with fixedly connected transverse supporting springs, the L-shaped slide grooves are internally provided with slidably connected pushing blocks which are fixedly connected with the transverse supporting springs, the right end surfaces of the pushing blocks are provided with fixedly connected starting switches, and the lower inner walls of the L-shaped slide grooves are provided with fixedly connected longitudinal supporting springs, a pushing sliding rod in sliding connection is arranged in the L-shaped sliding groove, the pushing sliding rod is fixedly connected with the longitudinal supporting spring, and a pushing sliding block in fixed connection is arranged on the pushing sliding rod;

2. The automatic tapping and collecting device for rubber trees as claimed in claim 1, wherein: the hydraulic cutting machine is characterized in that a fixedly connected hydraulic machine is arranged on the right end face of the placement block, a fixedly connected hydraulic block is arranged on the hydraulic machine, a hydraulic cavity with an upward opening is formed in the hydraulic block, a hydraulic slide rod in sliding connection is arranged in the hydraulic cavity, a fixedly connected rotating motor is arranged on the hydraulic slide rod, a rotating motor rotating shaft in rotating connection is arranged on the rotating motor, and a fixedly connected rotating connecting block is arranged on the rotating motor rotating shaft.

3. The automatic tapping and collecting device for rubber trees as claimed in claim 1, wherein: the cutting mechanism also comprises a motor slide block groove with an upward opening arranged on the cutting setting block, a motor sliding block which is connected in a sliding way is arranged in the motor sliding block groove, a sliding motor which is connected in a sliding way is arranged on the cutting placement block, the sliding motor is fixedly connected with the motor sliding block, a sliding motor rotating shaft which is connected in a rotating way is arranged on the sliding motor, a sliding meshing gear fixedly connected with the sliding motor rotating shaft is arranged on the sliding motor rotating shaft, a meshing inner gear fixedly connected with the cutting mounting block is arranged on the cutting mounting block, the upper end face and the right end face of the sliding motor are provided with lifting connecting blocks which are fixedly connected, lifting connecting sliding rods which are connected in a sliding manner are arranged on the lifting connecting blocks, the lifting connection sliding rod is provided with a connection bearing fixedly connected, the connection bearing is rotatably connected with the cutting connection rod, and the sliding engagement gear is meshed with the engagement inner gear.

4. The automatic tapping and collecting device for rubber trees as claimed in claim 1, wherein: the cutting placement block is provided with a reel motor cavity with a leftward opening, the reel motor cavity is internally provided with a fixedly connected reel motor, the reel motor is provided with a rotatably connected reel motor shaft, the reel motor shaft is provided with a fixedly connected reel, the cutting placement block is provided with a guide plate chute with a leftward opening, the inner wall of the right side of the guide plate chute is provided with a fixedly connected guide plate supporting spring, the guide plate chute is internally provided with a slidably connected guide plate rotating motor, the guide plate rotating motor is fixedly connected with the guide plate supporting spring, the guide plate supporting spring is provided with a rotatably connected guide plate rotating motor shaft, the guide plate rotating motor shaft is provided with a fixedly connected guide plate rotating block, the guide plate rotating block is provided with a guide plate clamping chute with a leftward opening, the improved guide plate clamping device is characterized in that a compression spring of fixed connection is arranged in the guide plate clamping sliding groove, a hydraulic pushing plate of sliding connection is arranged in the guide plate clamping sliding groove, the hydraulic pushing plate is fixedly connected with the compression spring, a guide plate clamping sliding block of sliding connection is arranged in the guide plate clamping sliding groove, the guide plate clamping sliding block is about two compression springs are arranged in longitudinal symmetry, a guide plate clamping shaft of fixed connection is arranged on the guide plate clamping sliding block, a guide plate clamping block of fixed connection is arranged on the guide plate clamping shaft, and a guide plate is arranged between the guide plate clamping blocks in a clamping manner.

5. The automatic tapping and collecting device for rubber trees as claimed in claim 1, wherein: the winding wheel and the guide plate rotating motor are fixedly connected through a winding wire, the guide plate can be inserted on a rubber tree fixedly connected with the ground to play a role in drainage, glue solution on the rubber tree flows into the collecting barrel, the rubber tree can be scraped to open a groove by the cutting knife, and the guide plate can be just inserted in the groove and the edge of the rubber tree.