CN203618332U - Transplanting mechanism for continuously vertically planting - Google Patents

Abstract

The utility model provides a transplanting mechanism for continuously vertically planting. The transplanting mechanism comprises a transmission box, a planting arm assembly, a planting device and a cam opening mechanism, wherein the transmission box is fixed to a rack; three output shafts, an input shaft and two hanging shafts are arranged on the transmission shaft; a first output shaft, a second output shaft and the two hanging shafts are arranged on one side of the transmission box and are used for hanging and driving the planting arm assembly; a third output shaft and the input shaft are arranged on the other side of the transmission shaft, wherein the third output shaft is used for mounting and driving the cam opening mechanism; the input shaft is connected with the output shaft of a head of a transplanting device; the planting arm assembly is formed by the combination of a four-bar mechanism, a five-bar mechanism and two parallel mechanisms; the planting device is hung on the planting arm assembly through a square shaft. The transplanting mechanism is compact in structure, low in rate of seedlings damage, low in rate of seedlings missing, low in rate of seedling burying, and high in growing rate, and completely meets the agronomic requirements on transplanting of oilseed rape.

Description

A kind of transplanting mechanism of vertically planting continuously

Technical field

The utility model relates to agricultural planting machinery technical field, relates in particular to a kind of transplanting mechanism of vertically planting continuously.

Background technology

By rape seedling raising and transplanting is carried out to fine-grained management, be conducive to cultivate strong sprout, that cultivation " the strong spring in winter is sent out ", " Winter-Spring is two to be sent out " rape are realized the important channel of high yield, also be the cropping index important way that connects a batch contradiction, raising rape that solves paddy fields in south china rice harves and rapeseed cultivation simultaneously, and transplant after rape be difficult for lodging, can also effectively avoid the natural calamities such as Drought at seedling stage, sleet and frost.Rape is transplanted manually to transplant as main at present, and stoop labor is the great farming activities of labour intensity, and not only labour intensity is large, and planting quality is poor, productivity ratio is low, and cost is high, has greatly affected the enthusiasm of peasant planting rape and the further expansion of rapeseed cultivation area.

In recent years, have part agricultural machinery enterprise be comply with peasant to rape-transplanting machine in the urgent need to, also produced some rape-transplanting machines, but not only complex structure of the planting mechanism of these rape-transplanting machines, and poor stability; Though planting apparatus has point of zero velocity, but near point of zero velocity, its horizontal velocity variation is too fast, cannot accurately ensure that seedling falls under the state that approaches zero-speed, cause seedling serious lodging, even throw after seedling in zero-speed, can not vertically put a lodged plant upright, affect the upright degree of seedling, cause the upright degree of seedling poor; And planting apparatus easily deflects in the middle of the process of planting, original state while affecting seedling whereabouts, in addition the geometric locus of planting apparatus is not ideal enough, cause the accuracy rate of seedlings picking low, the planting apparatus seedling that falls has some setbacks, and easily produces to leak to plant, simultaneously planting apparatus can not vertical perforating, the hole of getting is excessive, cannot ensure seedling point, and then affects the erectility of seedling.

Utility model content

The technical problem that the utility model solves is to provide a kind of transplanting mechanism of vertically planting continuously, to solve the shortcoming in above-mentioned background technology.

The technical problem that the utility model solves realizes by the following technical solutions:

A transplanting mechanism of vertically planting continuously, comprises transmission case, transplant arm assembly, planting apparatus and cam opener; Wherein, transmission case is fixed in frame, on transmission case, be provided with three output shafts, a power shaft and two hitching axis, the first output shaft, the second output shaft and two hitching axis are arranged on transmission case one side, articulate with transplant arm assembly respectively, the opposite side of transmission case is provided with the 3rd output shaft and power shaft, on the 3rd output shaft, cam opener is installed, power shaft connects the output shaft of transplanter head, inputs for power; Transplant arm assembly is combined by four-bar mechanism, five-rod and two parallel mechanisms, and planting apparatus is articulated on transplant arm assembly by square shaft.

Transmission case comprises case shell, end cap, bearing, gear, power shaft, axle sleeve, output shaft; Power shaft carries out axial location by bearing; Gear connects by flat key with power shaft, and power shaft one end is by shaft shoulder axial location, and the other end is by axle sleeve axial location; Described bearing embeds in end cap and positions, and end cap is fixed on case shell; The connecting mode of output shaft is identical with power shaft.

In transplant arm assembly, four-bar mechanism comprises small crank, first connecting rod and the first rocking bar and transmission case, five-rod is made up of the first rocking bar, big crank, second connecting rod, the second fork, the 3rd fork and transmission case, and two parallel mechanisms comprise parallel support, gusseted; Wherein, small crank, big crank and the first rocking bar are articulated on transmission case, and the other end of small crank is connected with first connecting rod, and the other end of first connecting rod is connected with the other end of parallel support and the first rocking bar respectively; Second connecting rod one end is connected with big crank, and the other end is connected with the second fork middle part, the second fork and the 3rd fork are installed between parallel support and gusseted, and the second fork is parallel with the 3rd fork simultaneously; Between the first rocking bar, parallel support, the second fork and the 3rd fork, constraint mutually, guarantees that gusseted remains constant with the relative form on ground in the middle of the process of planting.Four-bar mechanism combines with five-rod, under the common driving of small crank and big crank, impel gusseted to complete predetermined path of movement curve, small crank, the first rocking bar and big crank are within a plane simultaneously, first connecting rod, second connecting rod and the second fork, the 3rd fork and gusseted are within a plane, save limited arrangement space, increased again the Stability and dependability of sleeve mechanism.

In above-mentioned transplant arm assembly, big crank is connected with the second output shaft, second connecting rod two ends and pivot pin are by two bearing radial locations, simultaneously by nut axial location, the stability that can effectively increase whole mechanism, locate by nut axle head on second connecting rod right side, passes on left axle sleeve axial location, big crank and second connecting rod keep certain spacing, and it is not interfered in the time of motion; The second rocking bar is connected by pivot pin with second connecting rod, and is provided with axle sleeve between the second rocking bar and second connecting rod, and axle sleeve separates the second rocking bar and second connecting rod, and it is not interfered in the time of motion.

Described small crank is connected with the first output shaft, first connecting rod is connected and is realized radial location by bearing with pivot pin, can effectively increase the stability of whole mechanism, and locate by nut axle head on small crank right side, left side is provided with axle sleeve, realize axial location by axle sleeve, make big crank and second connecting rod keep certain spacing, prevent from interfering at the volley.

In four-bar mechanism, described the first rocking bar is by two bearing radial locations, and its one end is by shaft shoulder axial location, and the other end is located by nut axle head; Parallel support two ends are connected and realize radial location with the first rocking bar, first connecting rod by bearing, between the first rocking bar and first connecting rod, be provided with axle sleeve, axle sleeve, by the first rocking bar and first connecting rod axially-spaced, prevents from interfering, and the axle head of parallel support is located by nut.

In five-rod, described the first rocking bar is connected and realizes radial location with transmission case by bearing, axial location is realized by the shaft shoulder and nut respectively in its both sides, the first rocking bar is all radially positioned in parallel support by bearing with the second fork, between the first rocking bar and the second fork, separated and prevented from interfering by axle sleeve, axle head is by nut axial location; The 3rd rocking bar is radially positioned in parallel support by bearing, and its both sides are respectively by the shaft shoulder and nut location.

In parallel mechanism, described the second fork and pivot pin are by bearing radial location, and two ends are by axle sleeve axial location, and to ensure that the second fork and gusseted keep certain distance not interfere, pivot pin is fixed in gusseted by nut; The connection of the 3rd fork and gusseted and the connecting relation of the second fork and gusseted are roughly the same.

In cam opener, cam is fixed on transmission case the 3rd output shaft by nut and pad, cam link right-hand member is fixed on transmission case by hold-down screw, and can rotate around the central shaft of hold-down screw, cam link left end is by hold-down screw rigid bearing, return spring one end is fixed on the middle part, left side of cam link, the other end is fixed on transmission case, to ensure that bearing can be adjacent to the working face of cam all the time, the left distal end of cam link is provided with wiring hold-down screw, on wiring hold-down screw, is fixed with bracing wire.

Planting apparatus comprises seedlings picking cylinder, left pin, right pin, left synchronous opener, right synchronous opener, duckbilled return spring, left duckbilled and right duckbilled; Wherein, left duckbilled and right duckbilled connect with seedlings picking cylinder by left pin, right pin respectively, and left duckbilled and right duckbilled can rotate around left pin, right pin, left duckbilled connects with the left opener of synchronizeing, and right synchronous opener connects with the left opener of synchronizeing, bracing wire connects with the left opener of synchronizeing, duckbilled return spring arranges between left duckbilled and right duckbilled, guarantees that left duckbilled and right duckbilled, under the effect without external force, can keep in the center, the state remaining closed, is conducive to seedlings picking and the punching of planting apparatus.

Described transmission case the 3rd output shaft driving cam rotates counterclockwise, in the time that the contact point of bearing and cam arrives rise angle, cam link overcomes the pulling force of return spring, around doing to swing clockwise with the interface of transmission case, thereby make bracing wire drop-down, shorten the distance between two duckbilleds, make left duckbilled do to swing clockwise around left pin, left duckbilled is by the right synchronous opener of left synchronous opener interlock, make right duckbilled make around right pin the angle that counter-clockwise swing is identical with left duckbilled, final left duckbilled and right duckbilled are synchronously opened gradually; In the time that the contact point of bearing and cam arrives far angle of repose, cam link reaches maximum around making the clockwise amplitude swinging with the interface of transmission case, thereby make the drop-down amplitude of bracing wire also reach maximum, make Distance Shortened between two duckbilleds to minimum of a value, left and right two duckbilleds are synchronously opened and are reached maximum gradually; In the time that the contact point of bearing and cam arrives the backhaul of cam, under the acting in conjunction of return spring and duckbilled return spring, the open-angle of left duckbilled and two duckbilleds of right duckbilled constantly reduces, in the time that the contact point of bearing and cam arrives the near angle of repose of cam, under the acting in conjunction of return spring and duckbilled return spring, distance between two duckbilleds is stretched to maximum, and two duckbilleds of left and right duckbilled are completely closed.

Described transmission case power shaft input power, give the first output shaft and the 3rd output shaft by gear drive by transmission of power, the 3rd output shaft is being given the second output shaft by gear by transmission of power, make the direction of rotation of the first output shaft and the second output shaft, the first output shaft and the second output shaft articulate respectively small crank and big crank, transferring power simultaneously, planting apparatus is articulated in gusseted by hexagon ring, transplant arm assembly is by the combination of four-bar mechanism and five-rod and two pairs of parallel-crank mechanisms, under big crank and the common driving of small crank, make planting apparatus in all the time perpendicular to ground, with certain regular movement.The 3rd output shaft articulates and driving cam, impels cam link to swing according to certain rule, finally makes the right duckbilled of left duckbilled interlock open and closure with certain rule together.

The utility model is arranged on feeds seedling device below, and it has the disposable punching that completes, the function of transplanting rape seedling, planting apparatus is provided with top dead centre and lower dead center in frame, transplant arm assembly is under transmission case the first output shaft and the driving of the second output shaft, make planting apparatus relative frame in the time arriving top dead centre have absolute point of zero velocity, and near velocity variations point of zero velocity is unhappy, both increased the time of seedlings picking, reduce again the requirement to feeding seedling device, and improve the success rate of seedlings picking, planting apparatus basic poses perpendicular to the ground remains unchanged simultaneously, be conducive to seedlings picking, can ensure again perpendicular attitude when seedling falls into soil, planting apparatus drop to that upper soll layer starts punching when arriving lower dead center or and then rise to and depart from after soil one segment distance, the horizontal velocity of its relative soil is very little, almost nil, planting apparatus when punching substantially not with soil generation lateral displacement, to realize vertical perforating, horizontal velocity while falling seedling is also almost nil, thereby realize zero-speed and throw seedling, a planting apparatus segment distance straight up after seedling falls, be conducive to vertically put a lodged plant upright, cam opener, under the driving of transmission case the 3rd output shaft, arrives after lower dead center at planting apparatus, opens planting apparatus and completes seedling, when planting apparatus rises to while departing from seedling completely, closes planting apparatus and then accepts to feed seedling.

Beneficial effect: the utility model is arranged on feeds seedling device below, and it has the disposable function that completes punching, transplanting rape seedling; In the middle of the process of planting, planting apparatus keeps vertical state with ground all the time, and can realize zero-speed seedlings picking, vertical perforating, zero-speed throwing seedling, vertically put a lodged plant upright, effectively improve the accuracy rate of seedlings picking, reduce leakage cultivation rate, reduce the power consumption of punching, ensured seedling point simultaneously, improved the upright degree of Brassica campestris L seedling after transplanting.This mechanism structure compactness, has seedling-damaging ratio low, and seedling-leaking ratio is low, buries seedling rate low, reveals seedling rate low, and vertical seedling rate is high, meets the agriculture requirement that rape is transplanted completely.

Brief description of the drawings

Fig. 1 is general assembly drawing of the present utility model.

Fig. 2 is the utility model transmission case part assembling drawing.

Fig. 3 is the utility model transplant arm part assembling drawing.

Fig. 4 is A face cutaway view in Fig. 3.

Fig. 5 is B face cutaway view in Fig. 3.

Fig. 6 is C face cutaway view in Fig. 3.

Fig. 7 is D face cutaway view in Fig. 3.

Fig. 8 is E face cutaway view in Fig. 3.

Fig. 9 is the utility model cam opener installation diagram.

Figure 10 is the installation diagram of the utility model planting apparatus.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

Referring to a kind of transplanting mechanism of vertically planting continuously of Fig. 1, this embodiment comprises 4 parts: planting apparatus 1, transplant arm assembly 2, cam opener 3 and transmission case 4, described transmission case 4 is fixed in frame 6 by bolt 5, the first output shaft 48a of transmission case 4 one sides and the second output shaft 48c and hitching axis articulate transplant arm assembly 2, the 3rd output shaft 48b of transmission case 4 opposite sides connects cam opener 3, and planting apparatus 1 is articulated on transplant arm assembly 2 by hexagonal square shaft, transplant arm assembly 2 is under the driving of transmission case 4 output shafts, make planting apparatus 1 relative frame in the time arriving top dead centre have an absolute point of zero velocity, both increased the time of seedlings picking, reduce again the requirement to feeding seedling device, thereby improve the success rate of seedlings picking, planting apparatus 1 basic poses perpendicular to the ground remains unchanged simultaneously, be conducive to seedlings picking, can ensure again perpendicular attitude when seedling falls into soil, planting apparatus 1 drop to that upper soll layer starts punching when arriving lower dead center or and then rise to and depart from after soil one segment distance, the horizontal velocity of its relative soil is very little, almost nil, planting apparatus 1 there is no while punching and soil generation lateral displacement, can vertical perforating, horizontal velocity while falling seedling is also almost nil, can realize zero-speed and throw seedling, planting apparatus 1 segment distance straight up after seedling falls, can realize vertically and putting a lodged plant upright.Cam opener 3, under the driving of transmission case the 3rd output shaft 48b, after planting apparatus 1 arrives lower dead center, is opened planting apparatus 1 and is completed seedling, when planting apparatus 1 rises to while departing from seedling completely, closes planting apparatus 1 and then accepts to feed seedling.Below elaborate structure and the relevant function of each several part.

Referring to Fig. 2, transmission case comprises case shell 41, end cap 1, bearing 43, gear 44, power shaft 45, axle sleeve 46, end cap 2 47, the first output shaft 48a, the 3rd output shaft 48b, the second output shaft 48c, bolt 49; Described power shaft 45 is by bearing 43 axial location; Described gear 44 connects by flat key with power shaft 45, and described power shaft 45 one end are by shaft shoulder axial location, and the other end is by axle sleeve 46 axial location; Described bearing 43 is located in the middle of being embedded into end cap 1 or end cap 2 47, and end cap 1, end cap 2 47 are fixed on case shell 41 by bolt 49.Connecting mode and the power shaft of the first output shaft 48a, the 3rd output shaft 48b, the second output shaft 48c are similar.Wherein the first output shaft 48a at two ends with the second output shaft 48c towards consistent, be convenient to install transplant arm assembly 2, the three output shaft 48b with power shaft towards consistent, be conducive to install cam opener.

Referring to Fig. 3, in transplant arm parts 2, small crank 21, big crank 26 and the first rocking bar 23 are mounted on transmission case 4, the other end of small crank 21 is connected with first connecting rod 22, first connecting rod 22 other ends are connected with the other end of parallel support 24, rocking bar 23, second connecting rod 27 one end are connected with big crank 26, the other end is connected with the second fork 25 middle parts, one end of the second fork 25 is connected with parallel support 24 simultaneously, the other end is connected with gusseted 29, one end of the 3rd fork 28 be connected with parallel support 24, the other end is connected with gusseted 29.The first rocking bar 23, parallel support 24, the second fork 25 and the 3rd fork 28 retrain mutually, guarantee that gusseted 29 remains constant with the relative form on ground in the middle of the process of planting.Small crank 21, first connecting rod 22 and the first rocking bar 23 and transmission case 4 form a four-bar mechanism, the first rocking bar 23, big crank 26, second connecting rod 27, the second fork 25 and transmission case 4 form a five-rod simultaneously, this four-bar mechanism combines with five-rod, under small crank 21 drives with big crank 26 is common, make gusseted 29 complete desired trajectory curve; Small crank 21, the first rocking bar 23 and big crank 26 are within a plane simultaneously, first connecting rod 22, second connecting rod 27 and the second fork 25, the 3rd fork 28 and gusseted 29 are within a plane, save limited arrangement space, increased again the Stability and dependability of sleeve mechanism.

Referring to Fig. 4, A face cutaway view in transplant arm parts 2 installation diagrams, i.e. assembly relation between the second output shaft 48c, big crank 26 and second connecting rod 27; Big crank 26 is fixed in by nut 210 on the second output shaft 48c of transmission case, second connecting rod 27 passes through two bearing 212 radial locations with pivot pin 211a, effectively increase the stability of whole mechanism, second connecting rod 27 right sides are by nut 210 axle head location, pass on left axle sleeve 214 axial location, big crank 26 and second connecting rod 27 keep certain spacing, and it is not interfered in the time of motion; The second rocking bar 25 is connected by pivot pin 213 with second connecting rod 27, second connecting rod 27 is by two bearings 212 and pivot pin 213 radial locations, by nut 210 axial location, axle sleeve 214 separates the second rocking bar 25 with second connecting rod 27 simultaneously, and it is not interfered in the time of motion.

Referring to Fig. 5, be B face cutaway view in transplant arm parts 2 installation diagrams, i.e. assembly relation between transmission case 4, the first rocking bar 23, parallel support 24 and first connecting rod 22; The first rocking bar 23 is by two bearing 212 radial locations, and its one end is by shaft shoulder axial location, and one end is by nut 210 axle head location.Two bearings 212 and the first rocking bar 23, first connecting rod 22 radial locations are used respectively in parallel support 24, and axle sleeve 214, the first rocking bar 23 and first connecting rod 22 axially-spaceds, prevents from interfering, and the axle head of parallel support 24 is located by nut 210.

Referring to Fig. 6, be C face cutaway view in transplant arm parts 2 installation diagrams, i.e. assembly relation between transmission case 4, the first rocking bar 23, the second fork 25, parallel support 24 and the 3rd fork 28.The first rocking bar 23 is by two bearings 212 and transmission case 4 radial locations, and both sides are respectively by the shaft shoulder and nut 210 axial location; The first rocking bar 23 is all radially positioned in parallel support 24 by two bearings 212 with the second fork 25, and centre is separated and prevented from interfering by axle sleeve 214, and axle head is by nut 210 axial location; The 3rd rocking bar 28 is radially positioned in parallel support 24 by two bearings 212, and locate by the shaft shoulder and nut 210 respectively both sides.

Referring to Fig. 7, be d face cutaway view in transplant arm parts 2 installation diagrams, i.e. assembly relation between the first output shaft 48a, small crank 21 and the first connecting rod 22 of transmission case; Small crank 21 is fixed on the first output shaft 48a by nut 210, first connecting rod 22 passes through two bearing 212 radial locations with pivot pin 211b, increase the stability of whole mechanism, small crank 21 right sides are by nut 210 axle head location, pass on left axle sleeve 214 axial location, make big crank 26 and second connecting rod 27 keep certain spacing, it is not interfered in the time of motion.

Referring to Fig. 8, be E face cutaway view in transplant arm parts 2 installation diagrams, i.e. assembly relation between gusseted 29, the second fork 25 and the 3rd fork 28; The second fork 25 is with pivot pin 215 by two bearing 212 radial locations, and axle sleeve 214 axial location are passed through at two ends, and makes the second fork 25 keep certain distance not interfere with gusseted 29, and pivot pin 215 is fixed in gusseted 29 by nut 210.The connecting relation of the 3rd fork 28 and gusseted 29 and the connecting relation of fork 25 and gusseted 29 are roughly the same.

Referring to Fig. 9, in cam opener 3 installation diagrams, cam 36 is fixed on transmission case the 3rd output shaft 48b by nut and pad, the right-hand member of cam link 31 is fixed on transmission case 4 by hold-down screw 34, but can rotate around the central shaft of hold-down screw 34 again, the left end of cam link 31 is fixed wtih bearing 32 by hold-down screw 34, one end of return spring 35 is fixed on the middle part, left side of cam link 34, the other end is fixed on transmission case 4, to ensure that bearing 32 can be adjacent to the working face of cam 31 all the time, the left distal end of cam link 31 is fixed with bracing wire 33 by wiring hold-down screw.

Referring to Figure 10, in the installation diagram of planting apparatus 1, left duckbilled 14 passes through respectively left pin 12a with right duckbilled 15, right pin 12b connects with seedlings picking cylinder 11, and left duckbilled 14 and right duckbilled 15 can be around left pin 12a, right pin 12b rotates, left duckbilled 14 connects with the left opener 14a of synchronizeing, right synchronous opener 15b connects with the left opener 14a of synchronizeing, bracing wire 33 connects with the left opener 14a of synchronizeing, duckbilled return spring 13 arranges between left duckbilled 14 and right duckbilled 15, guarantee that left duckbilled 14 and right duckbilled 15 are under the effect without external force, can keep in the center, the state remaining closed, be conducive to seedlings picking and the punching of planting apparatus 1.

In the present embodiment, the 3rd output shaft 48b driving cam 36 of transmission case rotates counterclockwise, in the time that bearing 32 arrives rise angle with the contact point of cam 36, cam link 31 overcomes the pulling force of return spring 35, around doing to swing clockwise with the interface of transmission case 4, thereby make bracing wire 33 drop-down, make the Distance Shortened between 11a and 11b, make left duckbilled 14 do to swing clockwise around left pin 12a, left duckbilled 14 is by the right synchronous opener 15a of left synchronous opener 14a interlock, make right duckbilled 15 make counter-clockwise swing and the angle identical with left duckbilled around right pin 12b, final left, right two duckbilleds are synchronously opened gradually, in the time that bearing 32 arrives far angle of repose with the contact point of cam 36, cam link 31 reaches maximum around making the clockwise amplitude swinging with the interface of transmission case 4, thereby make the drop-down amplitude of bracing wire 33 also reach maximum, make Distance Shortened between 11a and 11b to minimum of a value, left and right two duckbilleds are synchronously opened and are reached maximum gradually, in the time that bearing 32 arrives the backhaul of cam 32 with the contact point of cam 36, under the acting in conjunction of return spring 35 and duckbilled return spring 13, the open-angle of left and right two duckbilleds constantly reduces, in the time that bearing 32 arrives the near angle of repose of cam 32 with the contact point of cam 36, under the acting in conjunction of return spring 35 and duckbilled return spring 67, the distance between 11a and 11b is stretched to maximum, and left and right two duckbilleds are completely closed.

In the present embodiment, planting apparatus 1 is articulated in gusseted 29 by hexagon ring 11c, transplant arm assembly 2 is by the combination of four-bar mechanism and five-rod and two pairs of parallel-crank mechanisms, under big crank 26 drives with small crank 21 is common, make planting apparatus 1 in all the time perpendicular to ground, with certain regular movement; The 3rd output shaft 48b articulates and driving cam 36, impels cam rod member 31 to swing according to certain rule, finally makes left duckbilled 44 interlocks right duckbilled 15 and opens and closure with certain rule together.In the time that planting apparatus 1 approaches top dead centre under the driving of transplant arm assembly 2, cam opener 3 is controlled planting apparatus 1 closure, the speed that now planting apparatus 1 is fed seedling device is relatively close to zero, can catch easily and feed the seedling that Miao Qizhong falls, planting apparatus 1 is protecting seedling decline afterwards, after arriving upper soll layer, planting apparatus 1 starts vertical perforating by extruding, arrive after bottom dead center, cam opener 3 is controlled left duckbilled 14, right duckbilled 15 is opened until open completely, now the horizontal velocity of planting apparatus 1 relative soil is close to zero, be that seedling falls into soil with the absolute velocity close to zero under Action of Gravity Field, then planting apparatus 1 a period of time of moving vertically upward again puts a lodged plant upright to seedling, finally make seedling fix approaching under vertical state earthing under the double action refluxing at earthing wheel and soil, when planting apparatus 1 departs from after seedling completely, cam 36 loses support to cam swing 31, left duckbilled 14, right duckbilled 15 is closed completely under the double action of return spring 35 and duckbilled return spring 13, then accept to feed seedling, complete zero-speed and be subject to seedling, seedling-protection, vertical perforating, zero-speed is thrown seedling, the circulation of planting of vertically putting a lodged plant upright.

More than show and described general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and specification, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (5)

1. a transplanting mechanism of vertically planting continuously, comprises transmission case, transplant arm assembly, planting apparatus and cam opener; It is characterized in that, transmission case is fixed in frame, on transmission case, be provided with three output shafts, a power shaft and two hitching axis, the first output shaft, the second output shaft and two hitching axis are arranged on transmission case one side, articulate with transplant arm assembly respectively, the opposite side of transmission case is provided with the 3rd output shaft and power shaft, on the 3rd output shaft, cam opener is installed, and power shaft connects the output shaft of transplanter head; Transplant arm assembly is combined by four-bar mechanism, five-rod and two parallel mechanisms, and planting apparatus is articulated on transplant arm assembly by square shaft.

2. a kind of transplanting mechanism of vertically planting continuously according to claim 1, is characterized in that,

Transmission case middle gear connects by flat key with power shaft, and end cap is fixed on case shell.

3. a kind of transplanting mechanism of vertically planting continuously according to claim 1, it is characterized in that, in transplant arm assembly, four-bar mechanism comprises small crank, first connecting rod and the first rocking bar and transmission case, five-rod is made up of the first rocking bar, big crank, second connecting rod, the second fork, the 3rd fork and transmission case, and two parallel mechanisms comprise parallel support, gusseted; Wherein, small crank, big crank and the first rocking bar are articulated on transmission case, and the other end of small crank is connected with first connecting rod, and the other end of first connecting rod is connected with the other end of parallel support and the first rocking bar respectively; Second connecting rod one end is connected with big crank, and the other end is connected with the second fork middle part, the second fork and the 3rd fork are installed between parallel support and gusseted, and the second fork is parallel with the 3rd fork simultaneously; Described big crank is connected with the second output shaft, and the second rocking bar is connected by pivot pin with second connecting rod, and is provided with axle sleeve between the second rocking bar and second connecting rod; Described small crank is connected with the first output shaft.

4. a kind of transplanting mechanism of vertically planting continuously according to claim 1, it is characterized in that, in cam opener, cam is fixed on the 3rd output shaft, cam link right-hand member is fixed on transmission case by hold-down screw, and cam link left end is by hold-down screw rigid bearing; Return spring one end is fixed on the middle part, left side of cam link, and the other end is fixed on transmission case; The left distal end of cam link is provided with wiring hold-down screw, on wiring hold-down screw, is fixed with bracing wire.

5. according to a kind of transplanting mechanism of vertically planting continuously described in claim 1 or 4, it is characterized in that, in planting apparatus, left duckbilled and right duckbilled connect with seedlings picking cylinder by left pin, right pin respectively, left duckbilled connects with the left opener of synchronizeing, right synchronous opener connects with the left opener of synchronizeing, and bracing wire connects with the left opener of synchronizeing, and duckbilled return spring arranges between left duckbilled and right duckbilled.

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