CN209768167U - Mulberry sapling is transplanted and is dug hole device with digging earth - Google Patents

Abstract

The utility model discloses a mulberry sapling is transplanted with digging hole device, including mobilizable support, the power pack that can provide rotary power, turn round, elevating gear and mounting bracket, gliding installation is on the support about the mounting bracket can, rotatable being provided with in the elevating gear can with the thread bush of the screw rod spiro union of support to elevating gear links firmly with the mounting bracket, and elevating gear's hand wheel receives external power and takes place to rotate, can drive the thread bush and rotate, thereby elevating gear accomplishes ascending and descending action along the screw rod, power pack fixed mounting is on the mounting bracket to the vertical downward setting of output shaft, turn round the fixed tip that sets up at the output shaft, the utility model discloses, saved the manpower, convenient to use.

Description

Mulberry sapling is transplanted and is dug hole device with digging earth

Technical Field

The utility model relates to a mulberry leaf processing equipment's technical field specifically is a mulberry sapling is transplanted and is used digging device.

Background

The feed mulberry, also called Yajin protein mulberry, is bred by the experts of Beijing mulberry technical development center through artificial selection and crossbreeding to obtain the latest stress-resistant strain. The feed mulberry is a novel variety with good benefit in the mulberry industry of China, has strong regional adaptability, has direct ecological value and feed value, and has very wide development prospect.

The protein mulberry leaves and stems can be used as feed, the digestibility is about 80% generally, the highest digestibility is 95%, the palatability is good, and when various forage grass is provided at the same time, animals such as cattle, sheep, rabbits and the like always swallow the mulberry leaves firstly. The protein mulberry leaves and tender stems can be directly fed, and the alfalfa is directly fed to ruminant livestock, so that the turgor disease is easy to occur. Researches show that the mulberry leaves can replace concentrated feed of dairy cattle mainly containing grains, the effect is excellent, and even if 50% of concentrated feed is replaced by the mulberry leaves, the yield is not obviously reduced. When the corn silage is used for feeding beef cattle, the more mulberry leaves are added into the feed, the faster the beef cattle can grow. In the goats fed with the above forage, the goat milk yield increases with the increase of the feeding amount of mulberry leaves. The milk goat fed by the special mulberry leaves and the first-class feed produces 4L of milk on average per day.

the feed mulberry is used for afforestation in dry land, and the survival rate of deep planting is higher than that of shallow planting. Therefore, the white mulberry is also the first choice plant for sand forestation. The forage mulberry stem is resistant to cutting, the germination capacity is extremely strong in the rain-heat synchronization period of 6 months, 7 months, 8 months and 9 months, the stem of the forage mulberry cut by stumping is about 25-30 days, the height of the regenerated plant can reach 60cm, and the semi-moist area can reach 80 cm. The average growth per day is over 2 cm.

At present, the policy of returning to the farm land is also provided in some hills or plain areas, and the planting holes are excavated manually in many times in the areas, so that the mode has the disadvantages of multiple hands, low efficiency and incapability of ensuring the depth of the holes, and the small-sized machinery is very convenient to use for the flat ground. There is a need for such a small machine that can dig holes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mulberry sapling is transplanted and is dug hole device with digging, can replace people to dig the hole on smooth soil, convenient operation liberates the staff.

In order to achieve the above object, the utility model provides a following technical scheme: a digging and boring device for mulberry seedling transplantation comprises a movable support, a power unit capable of providing rotary power, a rotary head, a lifting device and a mounting frame, wherein the mounting frame is mounted on the support in a vertically sliding mode, a threaded sleeve capable of being in threaded connection with a screw rod of the support is rotatably arranged in the lifting device, the lifting device is fixedly connected with the mounting frame, a hand wheel of the lifting device can drive the threaded sleeve to rotate when being rotated by external power, so that the lifting device can complete ascending and descending actions along the screw rod, the power unit is fixedly mounted on the mounting frame, an output shaft is vertically arranged downwards, and the rotary head is fixedly arranged at the end portion of the output shaft.

Further, the rotor includes the main part, cutter and the baffle of cylinder, the mud groove has been seted up into along diameter direction in the bottom of main part to run through the up end of main part and seted up out the mud passageway, the centre of a circle of advancing below the mud groove terminal surface has been seted up a plurality ofly for annular matrix center, and every advances the mud groove and all communicates and has a mud passageway, the cutter is fixed to be set up between two adjacent mud grooves, the fixed setting of baffle is on the last mouthful side in mud groove, and this side is located the position that deviates from the rotor direction of rotation.

Furthermore, the cutter is cone-shaped, and the height of the cutter is greater than that of the baffle.

Further, the support includes runner and four screws that are located the bottom, and every screw rod top all is rotatable to be provided with the runner.

Further, the mounting bracket comprises an upper plate, a lower plate, a vertical connecting piece and connecting sleeves, the connecting sleeves are fixedly arranged at four corners of the upper plate and four corners of the lower plate, the connecting sleeves are sleeved on the screw rods, and two end portions of the vertical connecting piece are detachably connected with the side face of the upper plate and the side face of the lower plate respectively.

Furthermore, the power unit comprises a servo motor, a gearbox and an output shaft, the servo motor is detachably mounted on the lower end face of the upper plate, the gearbox is detachably mounted on the upper end face of the lower plate, and the output shaft is rotatably mounted on the lower end face of the lower plate and is in transmission connection with the gearbox.

Furthermore, the lifting device comprises a hand wheel, a threaded sleeve, a box body, a bevel gear set, a belt and belt pulley set and a driving gear, wherein mounting holes penetrating through the upper end face and the lower end face are respectively formed in two end parts of the box body, the threaded sleeve is rotatably mounted in the mounting holes, a channel is formed in the middle of the mounting holes and can be communicated with an inner cavity of the box body, raised mounting parts are arranged at two end parts of the threaded sleeve, a driven gear is fixedly arranged in the middle of the threaded sleeve, the mounting parts are arranged in bearings at two ends of the mounting holes, the driving gear is rotatably mounted at two ends in the inner cavity of the box body and is partially loosely accommodated in the channel and meshed with the driven gear, the belt and belt pulley set comprises a driving belt pulley, a belt and a driven belt pulley, the bevel gear set comprises a bevel gear I, the first bevel gear is rotatably arranged at the center of the inner cavity and is in transmission connection with a hand wheel arranged on the outer side of the box body, the second upper bevel gear is rotatably and vertically arranged above the first bevel gear downwards, the second lower bevel gear is rotatably and vertically arranged below the first bevel gear upwards, the second upper bevel gear and the second lower bevel gear are both meshed with the first bevel gear, driving belt pulleys are fixedly arranged on the second upper bevel gear and the second lower bevel gear, driven belt pulleys are fixedly arranged above and below the driving gears at two ends of the inner cavity respectively, and a belt is arranged between the driving belt pulleys and the driven belt pulleys.

Compared with the prior art, the beneficial effects of the utility model are as follows:

Only need this device of staff removal to use this device to dig the hole on the soil, use machinery to replace the manpower to dig the hole, the amount of labour is littleer, has alleviateed the intensity of labour of the process of digging the hole to a certain extent, and efficiency also can be faster.

Drawings

Fig. 1 is a front view of the present invention;

Fig. 2 is a side view of the present invention;

Fig. 3 is a bottom view of the swivel of the present invention;

Fig. 4 is a cross-sectional view of the swivel of the present invention;

Fig. 5 is a sectional view of the lifting device of the present invention.

In the figure: the device comprises a support-1, a power unit-2, a rotating head-3, a mounting rack-4, a main body part-5, a cutter-6, a baffle-7, a mud inlet groove-8, a mud outlet channel-9, a rotating wheel-10, a screw-11, an upper plate-12, a lower plate-13, a vertical connecting piece-14, a connecting sleeve-15, a servo motor-16, a gearbox-17, an output shaft-18, a hand wheel-19, a thread bush-20, a box body-21, a bevel gear set-22, a belt and belt wheel set-23, a driving gear-24, a mounting hole-25, a channel-26, an inner cavity-27, a mounting part-28, a driven gear-29, a driving belt pulley-30, a belt-31, a driven belt pulley-32, a, A first bevel gear-33, a second upper bevel gear-34 and a second lower bevel gear-35.

Detailed Description

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to the attached drawing, the utility model provides a mulberry sapling is transplanted and is used digging device, including mobilizable support 1, power pack 2, turn round 3, elevating gear and mounting bracket 4 that can provide rotary power, mounting bracket 4 is slidable from top to bottom installs on support 1, rotatable being provided with in the elevating gear can with the thread bush of the screw rod spiro union of support 1 to elevating gear links firmly with mounting bracket 4, and elevating gear's hand wheel receives external power and takes place to rotate, can drive the thread bush and rotate, thereby elevating gear accomplishes ascending and descending action along the screw rod, power pack 2 fixed mounting is on mounting bracket 4 to the vertical downward setting of output shaft, turn round 3 fixed settings at the tip of output shaft.

The working principle is as follows:

because the thread sleeve of the lifting device is in thread fit with the screw rod of the support 1, it can be determined that the lifting device can descend and ascend on the support 1 by utilizing positive pressure between threads and can stop when needed, the mounting frame 4 can freely slide on the support 1, when the lifting device ascends and descends and stops, the mounting frame 4 can be driven to ascend and descend, when the power unit 2 drives the rotary head 3 to rotate, the mounting frame 4 is matched to descend, the rotary head 3 can dig holes in the ground, because the lifting device is in thread fit with the screw rod, the positive pressure between the threads can provide enough pressure, the rotary head 3 can enter the ground, and the digging action is completed.

specifically, the rotor 3 comprises a cylindrical main body part 5, a cutter 6 and a baffle 7, wherein a mud inlet groove 8 is formed in the bottom of the main body part 5 along the diameter direction, a mud outlet channel 9 is formed in the upper end face of the main body part 5 in a penetrating manner, a plurality of circles of circle centers of the lower end faces of the mud inlet grooves 8 are formed in the center of an annular matrix, each mud inlet groove 8 is communicated with one mud outlet channel 9, the cutter 6 is fixedly arranged between two adjacent mud inlet grooves 8, the baffle 7 is fixedly arranged on one side edge of an upper opening of the mud inlet groove 8, the side edge is positioned at a position deviating from the rotation direction of the rotor 3, the cutter 6 can cut soil when the rotor 3 rotates, the rotating baffle 7 can scrape the soil when the main body part 5 descends, the soil is extruded into the mud outlet channel 9, the soil is discharged, the cutter 6 is in a cone shape, and the height of the cutter 6 is larger than that of the baffle 7, ensures that the soil is firstly cut and then scraped by the baffle 7.

Specifically, support 1 is including being located the runner 10 and the four screw rods 11 of bottom, and every screw rod 11 top all is rotatable is provided with runner 10, and runner 10 requires the diameter big, can freely remove between the soil, and convenient the removal greatly.

Specifically, the mounting bracket 4 includes an upper plate 12, a lower plate 13, a vertical connecting member 14 and a connecting sleeve 15, the connecting sleeve 15 is fixedly disposed at each of four corners of the upper plate 12 and four corners of the lower plate 13, the connecting sleeve 15 is sleeved on the screw rod 11, two ends of the vertical connecting member 14 are detachably connected to the side of the upper plate 12 and the side of the lower plate 13, that is, the mounting bracket 4 is of a frame structure, the upper plate 12, the lower plate 13 and the vertical connecting member 14 form a stable frame structure, the connecting sleeve 15 is slidably disposed on the screw rod, the mounting bracket 4 can freely lift on the support 1, and the lifting of the mounting bracket 4 is driven and stopped by the lifting device.

specifically, the power unit 2 includes a servo motor 16, a gearbox 17 and an output shaft 18, the servo motor 16 is detachably mounted on the lower end surface of the upper plate 12, the gearbox 17 is detachably mounted on the upper end surface of the lower plate 13, the output shaft 18 is rotatably mounted on the lower end surface of the lower plate 13 and is in transmission connection with the gearbox 17, and after power of the servo motor 16 passes through the gearbox 17, torque becomes large, so that torque of rotation of the output shaft 18 becomes large.

Specifically, the lifting device comprises a hand wheel 19, a threaded sleeve 20, a box body 21, a bevel gear group 22, a belt and belt pulley group 23 and a driving gear 24, wherein mounting holes 25 penetrating through the upper end surface and the lower end surface are respectively formed at two end parts of the box body 21, the threaded sleeve 20 is rotatably mounted in the mounting holes 25, a channel 26 is formed in the middle of the mounting holes 25, the channel 26 can be communicated with an inner cavity 27 of the box body 21, raised mounting parts 28 are arranged at two end parts of the threaded sleeve 20, a driven gear 29 is fixedly arranged in the middle of the threaded sleeve, the mounting parts 28 are arranged in bearings at two ends of the mounting holes 25, the driving gear 24 is rotatably mounted at two ends in the inner cavity 27 of the box body 21 and is partially loosely accommodated in the channel 26 to be meshed with the driven gear 29, the belt and belt pulley group 23 comprise a driving belt pulley, the bevel gear group 22 comprises a first bevel gear 33, a second upper bevel gear 34 and a second lower bevel gear 35, the first bevel gear 33 is rotatably arranged at the center of the inner cavity 27 and is in transmission connection with a hand wheel 19 arranged on the outer side of the box body 21, the second upper bevel gear 34 is rotatably and vertically arranged above the first bevel gear 33, the second lower bevel gear 35 is rotatably and vertically arranged below the first bevel gear 33, the second upper bevel gear 34 and the second lower bevel gear 35 are both meshed with the first bevel gear 33, driving pulleys 30 are fixedly arranged on the second upper bevel gear 34 and the second lower bevel gear 35, driven pulleys 32 are respectively and fixedly arranged above and below the driving gear 24 respectively arranged at two ends of the inner cavity 27, a belt 31 is arranged between the driving pulley 30 and the driven pulleys 32, and it can be seen that when the hand wheel 19 is rotated, after the bevel gear 33 rotates, the driving belt pulley 30 can be driven to rotate, the driven belt pulley 32 is driven by the belt 31 to rotate, then the driving gear 24 rotates to drive the threaded sleeve 20 to rotate, and the mounting rack 4 is lifted and lowered in a threaded fit mode.

On a relatively flat ground, the device is manually pushed to move on the ground, then the servo motor 16 is started at a position where digging is needed, certainly, the servo motor 16 can be provided with a storage battery and can also be electrically connected with an external power supply, the servo motor 16 drives the rotating head 3 to rotate, and the lifting device drives the rotating head to descend, so that the purpose of digging a hole on the ground is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a mulberry sapling is transplanted with digging hole device which characterized in that: including mobilizable support, can provide rotary power's power pack, turn round, elevating gear and mounting bracket, gliding installation is on the support from top to bottom on the mounting bracket, rotatable be provided with in the elevating gear can with the screw rod spiro union's of support thread bush to elevating gear links firmly with the mounting bracket, and elevating gear's hand wheel receives external power and takes place when rotating, can drive the thread bush and rotate, thereby elevating gear accomplishes ascending and descending action along the screw rod, power pack fixed mounting is on the mounting bracket to the vertical downward setting of output shaft, the fixed tip that sets up at the output shaft of turning round.

2. The digging device for mulberry seedling transplantation as set forth in claim 1, wherein: the rotary head comprises a cylindrical main body part, a cutter and a baffle, wherein a mud inlet groove is formed in the bottom of the main body part along the diameter direction, a mud outlet channel is formed in the upper end face of the main body part in a penetrating mode, the circle center of the end face below the mud inlet groove is a plurality of centers of annular matrixes, each mud inlet groove is communicated with one mud outlet channel, the cutter is fixedly arranged between two adjacent mud inlet grooves, the baffle is fixedly arranged on one side edge of the upper opening of each mud inlet groove, and the side edge is located on the position deviating from the rotary direction of the rotary head.

3. The digging device for mulberry seedling transplantation as set forth in claim 2, wherein: the cutter is a cone, and the height of the cutter is greater than that of the baffle.

4. the digging device for mulberry seedling transplantation as set forth in claim 1, wherein: the support is including the runner and four screws that are located the bottom, and every screw rod top all is rotatable to be provided with the runner.

5. The digging device for mulberry seedling transplantation as set forth in claim 1, wherein: the mounting bracket comprises an upper plate, a lower plate, vertical connecting pieces and connecting sleeves, the connecting sleeves are fixedly arranged at four corners of the upper plate and four corners of the lower plate, the connecting sleeves are sleeved on the screw rods, and two end portions of each vertical connecting piece are detachably connected with the side face of the upper plate and the side face of the lower plate respectively.

6. The digging device for mulberry seedling transplantation as set forth in claim 1, wherein: the power unit comprises a servo motor, a gearbox and an output shaft, the servo motor is detachably mounted on the lower end face of the upper plate, the gearbox is detachably mounted on the upper end face of the lower plate, and the output shaft is rotatably mounted on the lower end face of the lower plate and can be in transmission connection with the gearbox.

7. The digging device for mulberry seedling transplantation as set forth in claim 1, wherein: the lifting device comprises a hand wheel, a threaded sleeve, a box body, a bevel gear set, a belt and belt pulley set and a driving gear, wherein mounting holes penetrating through the upper end face and the lower end face are respectively formed in two end parts of the box body, the threaded sleeve is rotatably mounted in the mounting holes, a channel is formed in the middle of each mounting hole and can be communicated with an inner cavity of the box body, raised mounting parts are arranged at two end parts of the threaded sleeve, driven gears are fixedly arranged in the middle of the threaded sleeve, the mounting parts are arranged in bearings at two ends of each mounting hole, the driving gear is rotatably mounted at two ends in the inner cavity of the box body and is partially loosely accommodated in the channel and meshed with the driven gears, the belt and belt pulley set comprises a driving belt pulley, a belt and a driven belt pulley, the bevel gear set comprises a bevel gear I, an upper bevel gear II and a lower bevel, the upper bevel gear II is rotatably and vertically arranged above the first bevel gear I downwards, the lower bevel gear II is rotatably and vertically arranged below the first bevel gear I upwards, the upper bevel gear II and the lower bevel gear II are both meshed with the first bevel gear I, driving belt pulleys are fixedly arranged on the upper bevel gear II and the lower bevel gear II, driven belt pulleys are fixedly arranged above and below the driving gears at two ends of the inner cavity respectively, and a belt is arranged between the driving belt pulley and the driven belt pulley.