CN111758349B - Hot pepper seedling planter - Google Patents

Abstract

The invention relates to a planter, in particular to a pepper seedling planter. The technical problem is how to design a pepper seedling planter which can facilitate the planting of pepper seedlings by people, can plant pepper seedlings by opening two holes at a time, has high planting efficiency and ensures that the distances between dug holes are consistent. A pepper seedling planter, comprising: the arc hollow tube, the rigid coupling of the outside symmetry formula of arc hollow tube has the inlet pipe, the inlet pipe with communicate in the arc hollow tube. According to the invention, the two ends of the arc-shaped hollow pipe are moved to be in contact with soil, the pedal is stepped to move downwards, the movable cylinder can move downwards to dig a hole in the soil and drive the soil to move upwards, pepper seedlings are thrown into the feeding pipe, the pepper seedlings fall into the hole through the arc-shaped hollow pipe, the soil is pushed out by the push block to cover the root of the pepper seedlings to finish planting, the soil is not required to be backfilled after people plant, and the planting is convenient and high in planting efficiency.

Description

Hot pepper seedling planter

Technical Field

The invention relates to a planter, in particular to a pepper seedling planter.

Background

Capsici fructus, also called Horn Capsici fructus, long Capsici fructus, fructus Capsici, rhizoma Zingiberis recens, capsici fructus, fructus Capsici, and fructus Zanthoxyli, is a plant of Capsici of Solanaceae. Native to the tropical region of central and south america. Ancient Indians domesticated the crop in different regions from Mexico to Peru, and used as cooked food 7500 earlier than the public yuan. At the end of the Ming Dynasty, the sea road was introduced into China from Peru, mexico, america. Capsicum is a perennial herb. The fruits are usually conical or oblong, green when immature, and bright red, yellow or purple after mature, most common red is that pepper grows out by planting pepper seedlings, and most people dig holes in soil to plant pepper seedlings.

At present, most of pepper seedlings are planted manually by people, firstly holes are dug in soil by a handheld tool, then the pepper seedlings are placed in the holes for planting, finally the dug soil is filled back into the holes to cover the roots of the pepper seedlings, the operation is troublesome, people only can dig one hole at a time to plant the pepper seedlings, the planting efficiency is low, the intervals among the dug holes are different, and the subsequent growing environment of the pepper seedlings is influenced.

Therefore, a pepper seedling planter which can facilitate the planting of pepper seedlings by people, can plant pepper seedlings by opening two holes at a time, has high planting efficiency and ensures that the distances between dug holes are consistent is particularly needed to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects that the soil needs to be dug out of a hole by a tool, then pepper seedlings are put in the hole, and then the soil is backfilled, the operation is troublesome, only one hole can be dug at a time, the hole intervals are inconsistent, and the planting efficiency is low, therefore, the technical problem of the invention is as follows: the pepper seedling planter has the advantages that people can conveniently plant pepper seedlings, two holes can be formed at one time for pepper seedling planting, planting efficiency is high, and the dug holes are consistent in distance.

The technical implementation scheme of the invention is as follows: a pepper seedling planter, comprising: the feeding pipe is symmetrically and fixedly connected to one side outside the arc hollow pipe and communicated with the inside of the arc hollow pipe; the handle is fixedly connected between the outer sides of the two feeding pipes far away from the arc-shaped hollow pipe; the driving mechanism is arranged on one side outside the arc-shaped hollow pipe, is matched with the arc-shaped hollow pipe and is used for providing power; and the hole digging mechanism is arranged in the arc-shaped hollow pipe, is matched with the driving mechanism and is used for digging holes in soil.

As a further preferable mode, the driving mechanism includes: the vertical cylinder bodies are symmetrically and fixedly connected to one side outside the arc-shaped hollow pipe; the communicating pipe is connected and communicated with one side of the vertical cylinder body far away from the handle, the tail end of the communicating pipe is fixedly connected with one side of the arc-shaped hollow pipe close to the vertical cylinder body, and the communicating pipe is communicated with the inside of the arc-shaped hollow pipe; the n-shaped rod is slidably connected between the middle parts of one sides of the two vertical cylinder bodies far away from the arc-shaped hollow pipe in a penetrating manner; the first piston is slidably placed in the vertical cylinder body, and one side of the first piston, facing the handle, is fixedly connected with the end part of the n-shaped rod, facing the arc-shaped hollow pipe; the circular cylinder bodies are fixedly connected to one side of the arc-shaped hollow pipe between the two vertical cylinder bodies and are communicated with each other; the large piston is slidably placed in the circular cylinder body; the movable rod is slidably connected to the middle of the n-shaped rod in a penetrating mode, and the end, facing the arc-shaped hollow tube, of the movable rod penetrates through the circular cylinder body and is fixedly connected with one side, facing the large piston of the n-shaped rod, of the movable rod; the sleeve is sleeved on the movable rod in a sliding mode, and a pedal is fixedly connected to the outer side, away from the n-shaped rod, of the sleeve; the first spring is connected between one side in the sleeve far away from the circular cylinder body and the end part of the movable rod far away from the arc-shaped hollow tube.

As a further preferable mode, the hole digging mechanism includes: the fixed blocks are symmetrically and fixedly connected to the circumferential direction of the inner side of the arc-shaped hollow pipe and are close to the communicating pipe; the arc-shaped rod is slidably connected to the middle of the fixed block in a penetrating manner; the second piston is fixedly connected to the end part, close to the arc-shaped rod, of the vertical cylinder body and is in contact fit with the inner wall of the arc-shaped hollow pipe; the second spring is connected between one sides of the two second pistons far away from the arc-shaped rod; the movable cylinder is fixedly connected to the end part, far away from the second piston, of the arc-shaped rod and is in sliding fit with the arc-shaped hollow pipe; the pushing block is placed in the movable cylinder in a sliding manner; the contact ring is sleeved on the arc-shaped rod in a sliding mode and matched with the fixed block; the sliding rod is symmetrically and slidably connected to one side, facing the movable cylinder, of the contact ring in a penetrating mode, the end, facing the fixed block, of the sliding rod is fixedly connected with one side, far away from the contact ring, of the contact ring, and the end, far away from the contact ring, of the sliding rod is fixedly connected with one side, facing the pushing block, of the arc-shaped rod; and the third spring is sleeved on the sliding rod, one end of the third spring is fixedly connected with one side, facing the contact ring, outside the movable cylinder, and the other end of the third spring is fixedly connected with one side, facing the push block, of the contact ring.

As a further preferable mode, the device further comprises a clamping mechanism, and the clamping mechanism comprises: the inclined cylinder is sleeved on the sleeve in a sliding manner; the fourth spring is connected between one side of the outside of the sleeve, far away from the pedal, and one side of the inclined plane barrel, far away from the n-shaped rod, and is sleeved on the sleeve; the clamping grooves are symmetrically formed in the upper parts of the left side and the right side of the movable rod close to the sleeve; the clamping blocks are symmetrically and slidably connected to the middle of the lower parts of the left side and the right side of the sleeve in the inclined cylinder in a penetrating manner, the end parts of the clamping blocks, far away from the movable rod, are in contact fit with the inner wall of the inclined cylinder, and the end parts of the clamping blocks, far away from the inclined cylinder, are positioned in the clamping grooves and are in fit with the clamping grooves; and the fifth spring is connected between one side, close to the n-shaped rod, in the fixture block and one side outside the sleeve.

As a further preferable embodiment, the method further comprises: the n-type block is fixedly connected between one sides of the two feeding pipes close to the arc-shaped hollow pipe; the pull rod is slidably connected to the middle of the top of the n-shaped block far away from the arc-shaped hollow pipe in a penetrating manner; the knocking rods are symmetrically and fixedly connected to the left side and the right side of the lower part of the pull rod close to the pedal, and the end parts of the knocking rods are in contact fit with the feeding pipe; the sixth spring is sleeved on the pull rod, one end of the sixth spring is fixedly connected with the lower portion of the pull rod close to the knocking rod, and the other end of the sixth spring is fixedly connected with one side, facing towards the inside of the n-shaped block of the arc-shaped hollow pipe.

As a further preferable embodiment, the method further comprises: and the contact plate is fixedly connected between the two ends of the arc-shaped hollow pipe far away from the circular cylinder body.

The invention has the following advantages:

1. move to with soil contact through with arc hollow tube both ends, step on the footboard and remove downwards, can make a movable cylinder remove downwards and dig individual hole with soil, and drive soil rebound, throw into the hot pepper seedling in the inlet tube, the hot pepper seedling then drops to the hole through the arc hollow tube in, the ejector pad is then released soil and is covered the completion of planting in hot pepper seedling root, need not the people and backfill soil after planting, it is more convenient, plant efficiently.

2. Through the effect of chucking mechanism, can avoid a movable cylinder to touch the stone and can not move down and lead to n type pole to remove earlier and influence the normal operating of this device.

3. Through the effect of beating the pole, the pulling pull rod drives and beats the pole rebound, loosens the pull rod and makes beating the pole reset, beats the pole and resets and beats vibrations to the inlet pipe, has avoided hot pepper seedling card to be difficult to the planting that drops in the inlet pipe.

Drawings

Fig. 1 is a schematic front perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is an enlarged view of part B of the present invention.

Wherein: 1. the hydraulic driving device comprises an arc-shaped hollow pipe, 2 parts of a feeding pipe, 3 parts of a handle, 4 parts of a driving mechanism, 41 parts of a circular cylinder body, 42 parts of a movable rod, 43.n-shaped rods, 44 parts of a vertical cylinder body, 45 parts of a sleeve, 46 parts of a pedal, 47 parts of a first spring, 48 parts of a first piston, 49 parts of a large piston, 410 parts of a communication pipe, 5 parts of a hole digging mechanism, 51 parts of a fixed block, 52 parts of arc-shaped rods, 53 parts of a second piston, 54 parts of a second spring, 55 parts of a movable cylinder, 56 parts of a pushing block, 57 parts of a contact ring, 58 parts of a sliding rod, 59 parts of a third spring, 6 parts of a clamping mechanism, 61 parts of a fourth spring, 62 parts of a slope cylinder, 63 parts of a clamping block, 64 parts of a fifth spring, 65 parts of a clamping groove, 7.n-shaped blocks, 8 parts of a pull rod, 9 parts of a knocking rod, 10 parts of a contact plate and 11 parts of a contact plate.

Detailed Description

The invention is further described in the following examples, which are intended to illustrate, unless otherwise explicitly stated or limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1-3, a pepper seedling planter comprises an arc-shaped hollow tube 1, a feeding tube 2, a handle 3, a driving mechanism 4 and a hole digging mechanism 5, wherein the feeding tube 2 is fixedly connected to the left side and the right side of the rear side of the arc-shaped hollow tube 1, the feeding tube 2 is communicated with the inside of the arc-shaped hollow tube 1, the handle 3 is fixedly connected between the upper portion of the outer right side surface of the left feeding tube 2 and the upper portion of the outer left side surface of the right feeding tube 2, the driving mechanism 4 is arranged on the upper portion of the outer side surface of the arc-shaped hollow tube 1, the hole digging mechanism 5 is arranged on the inner side of the arc-shaped hollow tube 1, and the hole digging mechanism 5 is matched with the driving mechanism 4.

The driving mechanism 4 comprises a circular cylinder 41, a movable rod 42, an n-shaped rod 43, a vertical cylinder 44, a sleeve 45, a pedal 46, a first spring 47, a first piston 48, a large piston 49 and a communicating pipe 410, wherein the vertical cylinder 44 is fixedly connected to the upper portions of the left side and the right side of the outer side surface of the arc-shaped hollow pipe 1, the communicating pipe 410 is connected to the middle of the bottom of the vertical cylinder 44, the communicating pipe 410 is communicated with the inside of the vertical cylinder 44, the bottom end of the communicating pipe 410 is connected with and communicated with the arc-shaped hollow pipe 1, the first piston 48 is slidably arranged in the vertical cylinder 44, the n-shaped rod 43 is slidably arranged between the circle centers of the tops of the left side and the right side of the vertical cylinder 44, the bottom end of the n-shaped rod 43 is fixedly connected to the middle of the top of the first piston 48, the circular cylinder 41 is fixedly connected to the middle of the top of the sliding cylinder 41, the circular cylinder 41 is communicated with the inside of the arc-shaped hollow pipe 1, the large piston 49 is arranged in the inside of the circular cylinder 41, the middle of the n-shaped rod 43 is slidably arranged with the movable rod 42, the circle centers of the top of the circular cylinder 41 are fixedly connected to the top of the large piston 49, the movable rod 42, the sleeve 45 is sleeved with the sleeve 45, and the movable rod 47.

The hole digging mechanism 5 comprises a fixed block 51, an arc-shaped rod 52, a second piston 53, a second spring 54, a movable cylinder 55, a push block 56, a contact ring 57, a sliding rod 58 and a third spring 59, the fixed block 51 is fixedly connected to the upper sides of the left and right sides of the inner side surface of the arc-shaped hollow tube 1, the fixed block 51 is positioned below the communicating tube 410, the arc-shaped rod 52 is slidably arranged at the center of the middle of the fixed block 51, the second piston 53 is fixedly connected to the top end of the arc-shaped rod 52, the second piston 53 is in sliding fit with the arc-shaped hollow tube 1, the second spring 54 is connected between the inner side surfaces of the left and right sides of the second piston 53, the movable cylinder 55 is fixedly connected to the bottom end of the arc-shaped rod 52, the push block 56 is slidably arranged in the movable cylinder 55, the sliding rods 58 are arranged on the front and rear sides of the top of the movable cylinder 55, the bottom end of the sliding rod 58 is fixedly connected to the top end of the push block 56, the contact ring 57 matched with the sliding rod 51 is fixedly connected between the front and rear sides of the bottom of the contact ring 57, the front and rear sides of the outer top of the movable cylinder 55, and the third spring 59 is sleeved on the 58.

Firstly, an operator holds the handle 3 to move the arc-shaped hollow pipe 1 to a planting position, two ends of the arc-shaped hollow pipe 1 are in contact with soil, the driving mechanism 4 is stepped to move downwards, the driving mechanism 4 moves downwards to drive the hole digging mechanism 5 to operate, the hole digging mechanism 5 operates to be inserted into the soil to dig a hole, the driving mechanism 4 continues to be stepped to move downwards, the driving mechanism 4 drives the hole digging mechanism 5 to move upwards, the hole digging mechanism 5 drives the dug soil to move upwards, the driving mechanism 4 stops being stepped to throw hot pepper seedlings into the two feeding pipes 2 respectively, the hot pepper seedlings in the feeding pipes 2 fall into the arc-shaped hollow pipe 1, the hot pepper seedlings in the arc-shaped hollow pipe 1 fall into the hole, the driving mechanism 4 is stepped to move downwards, the driving mechanism 4 drives the hole digging mechanism 5 to move upwards, the hole digging mechanism 5 moves upwards to push out the soil, the pushed out soil covers the roots of the hot pepper seedlings, the hot pepper seedlings are planted, the hot pepper seedlings are released, the driving mechanism 4 is reset to drive the driving mechanism 4 to reset, and the hot pepper seedlings can be continuously reset. So, it is efficient to plant.

Initially, a proper amount of liquid is filled in the upper part in the arc hollow pipe 1, the vertical cylinder body 44 and the circular cylinder body 41, when two ends of the arc hollow pipe 1 are in contact with soil, the pedal 46 is stepped on to move downwards, the pedal 46 moves downwards to drive the sleeve 45 to move downwards, the sleeve 45 moves downwards to drive the movable rod 42 to move downwards through the first spring 47, the movable rod 42 moves downwards to drive the large piston 49 to move downwards, the large piston 49 moves downwards to push the liquid in the circular cylinder body 41 into the arc hollow pipe 1, the liquid in the arc hollow pipe 1 drives the hole digging mechanism 5 to move downwards to be inserted into the soil, and then a hole is dug out, at the moment, the large piston 49 also moves to the maximum stroke, the hole digging mechanism 5 stops moving, the sleeve 45 also contacts with the n-type rod 43, the pedal 46 is continuously stepped on to drive the sleeve 45 to move downwards, the first spring 47 is compressed, the sleeve 45 moves downwards to drive the n-type rod 43 to move downwards, the n-shaped rod 43 moves downwards to drive the first piston 48 to move downwards, the first piston 48 moves downwards to push liquid in the vertical cylinder 44 into the communicating pipe 410, the liquid in the communicating pipe 410 is discharged into the arc-shaped hollow pipe 1, the liquid drives the hole digging mechanism 5 to move upwards for resetting, the liquid also drives the hole digging mechanism 5 to move upwards, the hole digging mechanism 5 moves upwards to push part of the liquid back into the circular cylinder 41, the large piston 49 is also driven to move upwards for resetting, when the hole digging mechanism 5 moves upwards to a proper position, the pedal 46 is stopped to be treaded, pepper seedlings are thrown into the feeding pipe 2, the pepper seedlings fall into the arc-shaped hollow pipe 1, the pepper seedlings fall into holes, the pedal 46 continues to move downwards, the liquid continues to drive the hole digging mechanism 5 to move upwards, when the hole digging mechanism 5 moves upwards to a maximum stroke, the hole digging mechanism 5 pushes out the dug soil, the pushed soil falls into the hole to cover the root of the pepper seedlings, planting is also completed, the pedal 46 is loosened, the sleeve 45 moves upwards to drive the pedal 46 to move upwards under the action of the first spring 47, meanwhile, the hole digging mechanism 5 resets to push the liquid in the arc-shaped hollow tube 1 back to the vertical cylinder body 44 through the communicating tube 410, the liquid also pushes the first piston 48 to move upwards, the first piston 48 moves upwards to drive the n-type rod 43 to move upwards, and the n-type rod 43 moves upwards to drive the pedal 46 to move upwards through the sleeve 45 to reset.

When an operator steps on the pedal 46 to move downwards, the large piston 49 moves downwards to push liquid in the circular cylinder 41 into the arc-shaped hollow pipe 1, the liquid in the arc-shaped hollow pipe 1 drives the second piston 53 to move downwards, the second spring 54 is stretched, the second piston 53 moves downwards to drive the arc-shaped rod 52 to move downwards, the arc-shaped rod 52 moves downwards to drive the movable cylinder 55 to move downwards, the movable cylinder 55 moves downwards to drive the push block 56 to move downwards, the push block 56 drives the contact ring 57 to move downwards through the slide rod 58, the movable cylinder 55 moves downwards to be inserted into a hole in soil, the excavated soil is positioned in the movable cylinder 55, at the moment, the large piston 49 also moves downwards to the maximum stroke, the pedal 46 continues to move downwards, the first piston 48 moves downwards to push the liquid in the vertical cylinder 44 into the communication pipe 410, the liquid in the communication pipe 410 is discharged into the arc-shaped hollow pipe 1, along with the continuous discharge of the liquid, the liquid drives the second piston 53 to move upwards, the second spring 54 slowly contracts and resets, the second piston 53 moves upwards to push the liquid at the upper part in the arc hollow tube 1 back into the circular cylinder 41, and also drives the large piston 49 to move upwards and reset, when the second piston 53 continues to move upwards, the second piston 53 compresses the second spring 54, the second piston 53 drives the movable cylinder 55 to move upwards and reset through the arc rod 52, the pedal 46 continues to move downwards, the movable cylinder 55 continues to move upwards, when the contact ring 57 moves upwards and contacts with the second piston 53, the pedal 46 stops being stepped, and further when the pepper seedlings fall into the hole, the pedal 46 continues to move downwards, the movable cylinder 55 continues to move upwards, the third spring 59 compresses, along with the continuous upward movement of the movable cylinder 55, the push block 56 pushes out the soil in the movable cylinder 55, the pushed soil falls into the hole to cover the roots of the pepper seedlings, at the moment, the pedal 46 is loosened, the second piston 53 moves downwards to reset under the action of the second spring 54, the second piston 53 moves downwards to push liquid in the arc-shaped hollow tube 1 into the vertical cylinder body 44 through the communicating tube 410, the pedal 46 also moves upwards to reset, meanwhile, the second piston 53 drives the movable cylinder 55 to move downwards to reset through the arc-shaped rod 52, the third spring 59 also resets, the movable cylinder 55 also drives the push block 56 to move downwards to reset, and the contact ring 57 is separated from the fixed block 51. Thus, the planting of the pepper seedlings is completed.

Example 2

Referring to fig. 2 and 4, the present embodiment is different from embodiment 1 mainly in that the present embodiment further includes a clamping mechanism 6, the clamping mechanism 6 includes a fourth spring 61, a slope tube 62, a latch 63 and a fifth spring 64, the slope tube 62 is sleeved on the lower portion of the outer side surface of the sleeve 45, the fourth spring 61 is wound between the top end of the slope tube 62 and the lower portion of the outer side surface of the sleeve 45, the upper portions of the left and right sides of the movable rod 42 are respectively provided with a latch slot 65, the latch 63 is slidably connected in the middle of the lower portions of the left and right sides of the sleeve 45, the inner end of the latch 63 is located in the latch slot 65 and is matched therewith, the outer end of the latch 63 is in contact fit with the inner side surface of the slope tube 62, and the fifth spring 64 is connected between the inner side of the lower portion of the latch 63 and the outer side surface of the sleeve 45.

Initially, the fifth spring 64 is in a compressed state, when an operator steps on the pedal 46 to move downwards, the sleeve 45 moves downwards and drives the inclined surface cylinder 62 to move downwards through the fourth spring 61, the inclined surface cylinder 62 moves downwards to be in contact with the n-shaped rod 43, along with continuous downward movement of the sleeve 45, the fourth spring 61 is compressed, meanwhile, the sleeve 45 moves downwards and drives the movable rod 42 to move downwards through the fixture block 63, due to the effect of the fifth spring 64, the fixture block 63 moves outwards slowly, and when the large piston 49 moves downwards to a maximum stroke, the fixture block 63 moves outwards to be separated from the fixture groove 65, and the sleeve 45 moves downwards continuously to drive the n-shaped rod 43 to move downwards. After the pepper seedlings are planted, an operator loosens the pedal 46, the sleeve 45 moves upwards to drive the inclined cylinder 62 to move upwards to reset through the fourth spring 61, the fourth spring 61 also resets, meanwhile, the sleeve 45 also drives the clamping block 63 to move upwards, the clamping block 63 moves upwards to be inserted into the clamping groove 65 through the inward movement of the inclined cylinder 62 to fix the movable rod 42, and the fifth spring 64 is compressed. Therefore, the situation that the sleeve 45 drives the n-shaped rod 43 to move downwards to influence the operation of the device due to the fact that the movable cylinder 55 is inserted into soil and touches stones can be avoided.

Example 3

Referring to fig. 1, the present embodiment is different from embodiments 1 and 2 mainly in that in the present embodiment, the present embodiment further includes an n-type block 7, a pull rod 8, a tapping rod 9, and a sixth spring 10, the n-type block 7 is fixedly connected between lower portions of outer side surfaces of the left and right feed pipes 2, the pull rod 8 is slidably disposed in a middle of a top portion of the n-type block 7, the tapping rod 9 is fixedly connected to both left and right sides of a lower portion of the pull rod 8, a bottom end of the tapping rod 9 is in contact with the feed pipes 2, and the sixth spring 10 is wound between a lower portion of the pull rod 8 and an inner top portion of the n-type block 7.

The arc hollow pipe is characterized by further comprising a contact plate 11, and the contact plate 11 is fixedly connected between the left part and the right part of the outer side surface of the arc hollow pipe 1.

When the pepper seedlings are clamped in the feeding pipe 2, an operator can pull the pull rod 8 to move upwards, the sixth spring 10 is compressed, the pull rod 8 moves upwards to drive the knocking rod 9 to move upwards, the knocking rod 9 moves upwards to be separated from the feeding pipe 2, and then the pull rod 8 is loosened, due to the action of the sixth spring 10, the pull rod 8 moves downwards to drive the knocking rod 9 to move downwards, the knocking rod 9 moves downwards to knock the feeding pipe 2 to vibrate, the feeding pipe 2 vibrates the pepper seedlings, the pepper seedlings also drop into the arc-shaped hollow pipe 1, and then the pepper seedlings drop into the holes to be planted. Therefore, the phenomenon that the pepper seedling clamp is difficult to drop in the feeding pipe 2 to affect the next use can be avoided.

Firstly, an operator holds the handle 3 to move the two ends of the arc-shaped hollow pipe 1 to be in contact with soil, the arc-shaped hollow pipe 1 drives the contact plate 11 to be in contact with the soil, the contact plate 11 increases the contact area of the device and the soil, and then the next operation can be started to plant pepper seedlings. Therefore, the contact area of the device is increased, and the phenomenon that the planting of the pepper seedlings is influenced when the arc-shaped hollow pipes 1 are inserted into soil can be avoided.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (5)

1. A hot pepper seedling planter, which is characterized by comprising:

the device comprises an arc-shaped hollow pipe (1), wherein a feeding pipe (2) is symmetrically and fixedly connected to one side of the outside of the arc-shaped hollow pipe (1), and the feeding pipe (2) is communicated with the inside of the arc-shaped hollow pipe (1);

the handle (3) is fixedly connected between the outer sides of the two feeding pipes (2) far away from the arc-shaped hollow pipe (1);

the driving mechanism (4) is arranged on one side outside the arc-shaped hollow pipe (1), is matched with the arc-shaped hollow pipe (1) and is used for providing power;

the hole digging mechanism (5) is arranged in the arc-shaped hollow pipe (1), is matched with the driving mechanism (4) and is used for digging a hole in soil;

the drive mechanism (4) comprises:

the vertical cylinder body (44), the vertical cylinder body (44) is symmetrically and fixedly connected to one side of the outer side of the arc-shaped hollow pipe (1);

the communication pipe (410) is connected to one side, far away from the handle (3), of the vertical cylinder body (44) and communicated with the vertical cylinder body, the tail end of the communication pipe (410) is fixedly connected with one side, close to the vertical cylinder body (44), of the arc-shaped hollow pipe (1), and the communication pipe (410) is communicated with the interior of the arc-shaped hollow pipe (1);

the n-shaped rod (43) is slidably connected between the middle parts of one sides of the two vertical cylinders (44) far away from the arc-shaped hollow pipe (1) in a penetrating manner;

the first piston (48) is slidably placed in the vertical cylinder (44), and one side of the first piston (48) facing the handle (3) is fixedly connected with the end part of the n-shaped rod (43) facing the arc-shaped hollow pipe (1);

the circular cylinder body (41), the circular cylinder body (41) is fixedly connected to one side of the arc-shaped hollow pipe (1) between the two vertical cylinder bodies (44) and communicated with the two vertical cylinder bodies (44);

a large piston (49), wherein the large piston (49) is slidably placed in the circular cylinder (41);

the movable rod (42) is slidably connected to the middle of the n-shaped rod (43) in a penetrating manner, and the end part of the movable rod (42) facing the arc-shaped hollow pipe (1) penetrates through the circular cylinder body (41) and is fixedly connected with one side of the large piston (49) facing the n-shaped rod (43);

the sleeve (45) is sleeved on the movable rod (42) in a sliding mode, and a pedal (46) is fixedly connected to one side, away from the n-shaped rod (43), of the sleeve (45);

the first spring (47), the first spring (47) is connected between one side in the sleeve (45) far away from the circular cylinder body (41) and the end part of the movable rod (42) far away from the arc-shaped hollow tube (1).

2. The pepper seedling planter as claimed in claim 1, wherein the hole digging mechanism (5) comprises:

the fixing blocks (51) are symmetrically and fixedly connected to the circumferential direction of the inner side of the arc-shaped hollow pipe (1) and are close to the communicating pipe (410);

the arc-shaped rod (52), the arc-shaped rod (52) is slidably connected to the middle part of the fixed block (51) in a penetrating manner;

the second piston (53), the second piston (53) is fixedly connected to the end part of the arc-shaped rod (52) close to the vertical cylinder body (44), and the second piston is in contact fit with the inner wall of the arc-shaped hollow pipe (1);

a second spring (54), wherein the second spring (54) is connected between the sides of the two second pistons (53) far away from the arc-shaped rod (52);

the movable cylinder (55), the movable cylinder (55) is fixedly connected to the end part of the arc-shaped rod (52) far away from the second piston (53), and the movable cylinder is in sliding fit with the arc-shaped hollow pipe (1);

the pushing block (56), the pushing block (56) is placed in the movable cylinder (55) in a sliding manner;

the contact ring (57) is slidably sleeved on the arc-shaped rod (52) and matched with the fixed block (51);

the sliding rod (58) is symmetrically and slidably connected to one side, facing the movable cylinder (55) of the contact ring (57), of the sliding rod (58), the end, facing the fixed block (51), of the sliding rod is fixedly connected with one side, far away from the contact ring (57), of the vertical cylinder body (44), and the end, far away from the contact ring (57), of the sliding rod (58) is fixedly connected with one side, facing the pushing block (56) of the arc-shaped rod (52);

and the third spring (59) is sleeved on the sliding rod (58), one end of the third spring (59) is fixedly connected with one side, facing the contact ring (57), of the outer side of the movable cylinder (55), and the other end of the third spring (59) is fixedly connected with one side, facing the contact ring (57), of the push block (56).

3. The pepper seedling planting device as claimed in claim 2, further comprising a clamping mechanism (6), wherein the clamping mechanism (6) comprises:

the inclined cylinder (62), the sliding type suit of the inclined cylinder (62) is on the said bush (45);

the fourth spring (61), the said fourth spring (61) is connected to and kept away from the outside one side of said bush (45) of the said footboard (46) and keep away from the side of said inclined plane tube (62) of the said n-type pole (43), it is fitted on the said bush (45);

the clamping grooves (65) are symmetrically formed in the upper parts of the left side and the right side of the movable rod (42) close to the sleeve (45);

the clamping blocks (63) are symmetrically and slidably connected to the middle of the lower parts of the left side and the right side of the sleeve (45) in the inclined cylinder (62) in a penetrating manner, the end parts, far away from the movable rod (42), of the clamping blocks (63) are in contact fit with the inner wall of the inclined cylinder (62), and the end parts, far away from the inclined cylinder (62), of the clamping blocks (63) are located in the clamping grooves (65) and are in fit with the clamping grooves;

and the fifth spring (64), the fifth spring (64) is connected between the inner side of the fixture block (63) close to the n-shaped rod (43) and the outer side of the sleeve (45).

4. A pepper seedling planter as claimed in claim 3, further comprising:

the n-shaped block (7) is fixedly connected between the outer sides of the two feeding pipes (2) close to the arc-shaped hollow pipe (1);

the pull rod (8) is connected to the middle of the top of the n-shaped block (7) far away from the arc-shaped hollow pipe (1) in a sliding mode in a penetrating mode;

the knocking rod (9) is symmetrically and fixedly connected to the left side and the right side of the lower part of the pull rod (8) close to the pedal (46), and the end parts of the knocking rod (9) are in contact fit with the feeding pipe (2);

the sixth spring (10) is sleeved on the pull rod (8), one end of the sixth spring (10) is fixedly connected with the lower portion of the pull rod (8) close to the knocking rod (9), and the other end of the sixth spring is fixedly connected with one side, facing towards the inside of the n-shaped block (7) of the arc-shaped hollow pipe (1).

5. The pepper seedling planter as claimed in claim 4, further comprising:

the contact plate (11), the contact plate (11) rigid coupling is in keeping away from between the arc hollow tube (1) both ends of circular cylinder body (41).

Images