CN108781662B - Electric transplanting machine and electric energy supply method - Google Patents

Abstract

The present invention provides an electric transplanter and a method of supplying electric power, wherein the electric transplanter includes at least one power supply device and a transplanter device, wherein the transplanter device includes a transplanter body, at least one accommodating body, and at least one holding unit, wherein the accommodating body is provided to the transplanter body, and the accommodating body has an accommodating space and an opening communicating with the accommodating space, wherein the power supply device is detachably mounted to the accommodating space from the opening of the accommodating body, and wherein the holding unit is held at the opening of the accommodating body to prevent the power supply device from falling out of the accommodating space from the opening of the accommodating body, so as to ensure reliability and stability of the electric transplanter when being used.

Description

Electric transplanting machine and electric energy supply method

Technical Field

The present invention relates to agricultural machinery, and more particularly, to an electric transplanter and an electric power supply method.

Background

A transplanter is an agricultural machine for transplanting crop seedlings, which is put into use in a manner that can replace the conventional artificial transplanter crop seedlings. The traditional transplanting machine adopts an internal combustion engine as a power source, and the power source of the internal combustion engine not only can pollute the planting environment, but also can seriously influence the physical and mental health of an operator of the transplanting machine. In recent years, with the rapid development of clean energy sources such as batteries, battery-related technologies are becoming mature, and therefore, how to apply battery technologies to transplanting machines is a technical problem that needs to be solved. In addition, although the power storage capacity of the battery is continuously increased, the power storage capacity is limited, and particularly, after the electric energy stored in the battery is exhausted, it takes a relatively long time to be able to recharge the external power source to the inside of the battery, so in order to ensure that the transplanting machine can be continuously used for a long time, the battery needs to be designed to be detachable, that is, when the electric quantity of the battery is insufficient, an operator can ensure that the transplanting machine is continuously used by replacing the spare battery. The detachable battery requires a transplanter connector of a circuit which is connected to the transplanter body in a conducting manner to be arranged on the transplanter body of the transplanter, and a battery connector which is connected to the battery body in a conducting manner to be arranged on the battery body of the battery. To facilitate the battery, the battery connector and the transplanter connector are usually designed as plug connectors, i.e. the battery connector and the transplanter connector can be connected to conduct by plugging. However, since the transplanting machine is applied to the rugged farmland, a large amplitude of vibration is generated when the transplanting machine is used, and the battery has a large weight, which causes a bad phenomenon that the battery bounces up and down simultaneously when the transplanting machine vibrates, and once the battery bounces up and down, the battery can certainly drive the battery connector to move, which is that the battery connector and the transplanting machine connector can be automatically disconnected, which not only causes the battery to interrupt power supply to the transplanting machine to influence the normal operation of the transplanting machine, but also causes the battery connector and the transplanting machine connector to be in a continuous plugging state, so that the reliability of the transplanting machine is seriously influenced.

Disclosure of Invention

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the electric transplanter includes a transplanter device and at least one power supply device, wherein a battery connection unit of the power supply device and a transplanter connection unit of the transplanter device can be reliably connected so that the power supply device can continuously and stably supply power to the transplanter device when the electric transplanter is used, thereby ensuring reliability of the electric transplanter when the electric transplanter is used.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the transplanter includes a housing body, and the transplanter coupling unit is provided to the housing body, wherein the battery coupling unit of the power supply device and the transplanter coupling unit of the transplanter are conducted in a housing space of the housing body, such that a connection position of the battery coupling unit and the transplanter coupling unit can be prevented from being exposed, thereby ensuring reliability of a conduction relationship of the power supply device and the transplanter device.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the receiving body is obliquely disposed and an opening of the receiving body is obliquely upward, so that when the power supply device is disposed in the receiving space of the receiving body, gravity of the power supply device itself can reliably turn on the battery connection unit and the transplanter connection unit.

An object of the present invention is to provide an electric transplanter and an electric power supply method, wherein the transplanter device includes a holding unit for securely holding the power supply device in the accommodation space of the accommodation body.

An object of the present invention is to provide an electric transplanter and an electric power supply method in which the holding unit is configured to prevent the power supply device from shaking in the accommodation space of the accommodation body, in such a manner that the power supply device and the transplanter device vibrate synchronously, in the same direction, with the same vibration amplitude when the electric transplanter vibrates, so that the reliability of the connection relationship between the battery connection unit and the transplanter connection unit can be ensured.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the holding unit is configured to prevent the battery connection unit of the power supply device from moving relative to the transplanter connection unit of the transplanter device, so that the connection between the battery connection unit and the transplanter connection unit can be prevented from being loosened, thereby ensuring the stability of the connection relationship between the power supply device and the transplanter device.

An object of the present invention is to provide an electric transplanting machine and an electric power supply method, wherein the holding unit includes at least one holding rod, wherein after the power supply device is disposed in the accommodation space of the accommodation body, the holding rod is disposed at an open end of the accommodation body such that the holding rod prevents the power supply device from falling out of the accommodation space of the accommodation body by reducing an opening of the accommodation body.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the holding rod and an operation end of a power supply body of the power supply device are in contact with each other, thereby avoiding a bad phenomenon that the power supply device is shaken in the receiving space of the receiving body, so that not only an abnormal sound generated by collision of an outer wall of the power supply body and an inner wall of the receiving body can be avoided, but also a looseness of a connection portion of the battery connection unit and the transplanter connection unit can be avoided.

An object of the present invention is to provide an electric transplanting machine and an electric power supply method, wherein the holding unit includes a cover, wherein after the power supply device is disposed in the accommodation space of the accommodation body, the cover closes the opening of the accommodation body so that the cover prevents the power supply device from falling out of the accommodation space from the opening of the accommodation body.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the holding unit includes at least one buffer portion, wherein the buffer portion is held between the operation end of the power supply body and the cover to fill a gap formed between the operation end of the power supply body and the cover by the buffer portion, so that not only can abnormal sound generated by the operation end of the power supply body colliding with the cover be prevented, but also the power supply device can be prevented from shaking in the accommodation space of the accommodation body, thereby avoiding a bad phenomenon such as loosening at a connection point of the battery connection unit and the transplanter connection unit.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the buffer portion is provided to the cover so that the buffer portion is automatically held between the operation end of the power supply body and the cover when the cover is operated to close the opening of the accommodating body.

An object of the present invention is to provide an electric transplanter and an electric power supply method, wherein the holding unit includes a holding mechanism, wherein the holding mechanism is provided to the power supply body, wherein the holding mechanism automatically locks the housing body when the power supply body is held in the housing space of the housing body, thereby preventing the power supply body from shaking in the housing space of the housing body.

An object of the present invention is to provide an electric transplanter and an electric power supply method, wherein the holding mechanism includes at least one holding member, wherein the holding member has a locked state and an unlocked state, and the holding member is allowed to switch between the locked state and the unlocked state, wherein when the power supply body is held in the accommodation space of the accommodation body, the holding member is in the locked state so that the power supply body is reliably held in the accommodation space of the accommodation body, and when the power supply body needs to be taken out from the accommodation space of the accommodation body, the holding member is in the unlocked state.

An object of the present invention is to provide an electric transplanting machine and an electric power supply method, wherein the holding mechanism includes an operating element, wherein the operating element is provided in a middle portion of the holding member, wherein when the operating element is lifted, gravity of the power supply body causes the holding mechanism to be operated by the operating element to switch from the locked state to the unlocked state, so as to allow an operator to take out the power supply device from the accommodation space of the accommodation body, and when the power supply body is held by the accommodation body, the holding mechanism is automatically switched from the unlocked state to the locked state, so that the holding mechanism is automatically locked to the accommodation body.

An object of the present invention is to provide an electric transplanter and an electric power supply method, in which the electric power supply device can stably supply electric power to the transplanter device to ensure stability of the electric transplanter when being used.

According to one aspect of the present invention, there is provided an electric transplanting machine comprising:

at least one power supply device; and

a transplanting machine device, wherein the transplanting machine device comprises a transplanting machine body, at least one accommodating body and at least one holding unit, wherein the accommodating body is arranged on the transplanting machine body, the accommodating body is provided with an accommodating space and an opening communicated with the accommodating space, the power supply device is detachably arranged in the accommodating space from the opening of the accommodating body, and the holding unit is held in the opening of the accommodating body so as to prevent the power supply device from falling off from the opening of the accommodating body from the accommodating space.

According to one embodiment of the invention, the power supply device comprises a power supply body and a battery connection unit, which is conductively connected to the power supply body, wherein the transplanter device comprises at least one transplanter connection unit, which is conductively connected to the circuitry of the transplanter body, wherein the battery connection unit and the transplanter connection unit are conductively connected when the power supply body is accommodated in the accommodation space of the accommodation body.

According to an embodiment of the present invention, the battery connection unit is provided at a connection end of the power supply body, the transplanter connection unit is provided at a mounting end of the accommodating body, and the transplanter connection unit extends from an outside of the accommodating body to the accommodating space, wherein the battery connection unit and the transplanter connection unit are automatically turned on when the power supply body is mounted to the accommodating space of the accommodating body.

According to one embodiment of the invention, the holding unit comprises at least one holding mechanism comprising at least one holding member, wherein the holding member is movably arranged at the operation end of the power supply body, wherein the holding member has a locked state, an unlocked state and at least one locked end, the holding member being adapted to switch between the locked state and the unlocked state to adjust the position of the locked end, wherein the opening end of the housing body is provided with at least one insertion hole, each of the insertion holes being respectively communicated with the housing space, wherein when the holding member is in the locked state, each of the locking ends of the holding member is held at each of the insertion holes of the housing body, and when the holding member is in the unlocked state, each of the locking ends of the holding member is disengaged from each of the insertion holes of the housing body.

According to one embodiment of the invention, the holding member is automatically switched between the locked state and the unlocked state.

According to one embodiment of the invention, the holding mechanism comprises at least one mounting element, wherein the mounting element is arranged at the operating end of the power supply body and at least one movable channel is formed at the operating end of the mounting element and the power supply body, the opening of the movable channel corresponds to the insertion hole of the accommodating body, wherein the holding member is movably arranged at the movable channel, wherein when the holding member is in the locked state, the locking end of the holding member protrudes from the movable channel to be held at the insertion hole of the accommodating body, and when the holding member is in the unlocked state, the locking end of the holding member is hidden from the movable channel to be disengaged from the insertion hole of the accommodating body.

According to one embodiment of the invention, the holding member comprises at least one locking element and a return element, wherein the return element is deformably arranged to the movable channel, the locking element having a return end and the locking end corresponding to the return end, wherein the return end of the return element is connected to the return element, wherein the return element is deformable along a track formed by the movable channel, and the locking element is movable along a track formed by the movable channel.

According to one embodiment of the invention, the holding member comprises two locking elements, wherein the return element is deformably arranged in the middle of the movable channel, each of the locking elements being movably arranged on both sides of the movable channel, and each of the locking elements being symmetrical to each other, and the two ends of the return element being connected to the return end of each of the locking elements, respectively.

According to one embodiment of the invention, the holding mechanism comprises at least one operating element having two free ends, wherein the mounting element has two operating channels, each of which communicates with the active channel and the environment outside the mounting element, respectively, wherein each of the free ends of the operating element extends through each of the operating channels of the mounting element to the active channel, respectively, and each of the free ends of the operating element is connected to the return end of each of the locking elements, respectively.

According to one embodiment of the invention, the distance dimension between the two free ends of the operating element is greater than the distance dimension of the two operating channels of the mounting element.

According to an embodiment of the present invention, the accommodating body is provided at a center of gravity position of the transplanting machine body.

According to an embodiment of the present invention, the number of the accommodation bodies is two, wherein the two accommodation bodies are symmetrically disposed to both sides of the center of gravity position of the transplanting machine body.

According to one embodiment of the invention, the receiving body is provided obliquely to the transplanter body.

According to one embodiment of the invention, the power supply device comprises at least one set of sliding units, wherein the sliding units are movably arranged at the lower side of the outer wall of the power supply body, wherein the sliding units are held between the power supply body and the inner wall of the accommodating body.

According to one embodiment of the invention, the holding unit comprises at least one cover, wherein the cover is detachably arranged on the accommodating main body so as to close the opening of the accommodating main body by the cover.

According to one embodiment of the invention, the holding unit comprises at least one buffer portion, wherein the buffer portion is held between the cover and the operating end of the power supply body.

According to an embodiment of the present invention, the buffer portion is provided to the cover so as to be automatically held between the cover and the operation end of the power supply body when the cover closes the opening of the accommodating body.

According to one embodiment of the present invention, the holding unit includes at least one holding rod, and the open end of the accommodating body is provided with at least two insertion holes, wherein both ends of the holding rod are respectively held at each insertion hole, so that the power supply device is held in the accommodating space of the accommodating body in such a manner that the size of the opening of the accommodating body is reduced by the holding rod.

According to one embodiment of the invention, the holding lever and the operating end of the power supply body are in contact with each other.

According to one embodiment of the invention, the power supply device comprises at least one operation handle, wherein the operation handle is arranged at the operation end of the power supply body.

According to one embodiment of the invention, the power supply device comprises at least one indicator lamp, wherein the indicator lamp is arranged at the operation end of the power supply body, and the indicator lamp is connected to the power supply body in a conductive mode.

According to one embodiment of the invention, the power supply device comprises at least one control switch, wherein the control switch is arranged at the operation end of the power supply body, and the control switch is connected to the power supply body in a conductive manner.

According to another aspect of the present invention, there is further provided a power supply method of an electric transplanter, wherein the power supply method includes the steps of:

(a) Extending a transplanter connecting unit conductively connected to a circuit of a transplanter body from outside of a housing body to a housing space of the housing body;

(b) A power supply body to be held in the accommodation space of the accommodation body is conductively connected to the transplanter connecting unit through a battery connecting unit conductively connected to the power supply body; and

(c) The power supply body is held in the accommodation space of the accommodation body by a holding unit held at an opening of the accommodation body so that the transplanter connection unit and the battery connection unit are reliably conducted in the accommodation space of the accommodation body.

According to an embodiment of the present invention, in the step (b), the battery connection unit is automatically turned on the transplanter connection unit when the power supply body is disposed in the accommodation space of the accommodation body.

According to an embodiment of the present invention, in the above-described method, the transplanter connecting unit extends from the mounting end of the housing body from the outside of the housing body to the housing space, the battery connecting unit is provided to the connecting end of the power supply body, the power supply body is provided to the housing space of the housing body in such a manner that the connecting end of the power supply body is provided to the housing space of the housing body first, and the battery connecting unit and the transplanter connecting unit are automatically turned on when the power supply body is held in the housing space of the housing body.

According to an embodiment of the present invention, in the above method, the housing body is provided obliquely to the transplanting machine body, and an opening of the housing body is kept obliquely upward.

According to an embodiment of the present invention, in the step (c), both end portions of a holding rod of the holding unit are respectively inserted into insertion holes at the opening of the accommodating body so that the holding rod is held at the opening of the accommodating body, whereby the power supply body is held at the accommodating space of the accommodating body by the holding rod.

According to an embodiment of the present invention, in the step (c), the power supply body is prevented from shaking in the accommodation space of the accommodation body by bringing the holding lever and the operation end of the power supply body into contact with each other.

According to an embodiment of the present invention, in the step (c), a cover is closed at the opening of the accommodating body, and at least one buffer portion is held between the cover and the operation end of the power supply body, so that the power supply body is held in the accommodating space of the accommodating body by the cover and the buffer portion.

According to one embodiment of the invention, the cover body, the buffer part and the power supply body are assembled in an interference fit manner.

According to an embodiment of the present invention, in the step (c), further comprising the steps of:

(c.1) disposing a mounting element of the holding unit at the operation end of the power supply body, and forming a movable passage between the mounting element and the operation end of the power supply body;

(c.2) movably disposing a holding member of the holding unit to the movable passage so that the holding member has a locked state and an unlocked state, and being switchable between the locked state and the unlocked state when the holding member is movable within the movable passage; and

(c.3) in the process of disposing the power feeding body in the accommodation space of the accommodation body, holding the holding member in the unlock state, and after the power feeding body is accommodated in the accommodation space of the accommodation body, switching the holding member from the unlock state to the lock state, and the lock end of the holding member being held in the insertion hole of the accommodation body.

According to an embodiment of the present invention, in the step (c.2), further comprising the steps of:

(c.2.1) deformably disposing a return element of the retaining member in the middle of the movable channel;

(c.2.2) causing two locking elements of the holding member to be movably disposed in the movable passage, and a return end of each of the locking elements to be respectively connected to the return element, wherein when the holding member is in the locked state, the locking end of each of the locking elements protrudes from the movable passage, and the return element is in an extended state to keep the locking end of each of the locking elements in a state protruding from the movable passage, wherein when the holding member is in the unlocked state, the locking end of each of the locking elements is hidden from the movable passage, and the return element is in a compressed state to have a tendency to protrude the locking end of each of the locking elements from the movable passage; wherein in the step (c.3), after the power supply body is accommodated in the accommodation space of the accommodation body, the return member is switched from the compressed state to the extended state to push each of the locking members to move along the track formed by the movable passage, and is inserted into the insertion hole of the accommodation body after the locking end of each of the locking members protrudes from the movable passage, so that the holding member is automatically switched from the unlocked state to the locked state.

According to one embodiment of the present invention, in the above method, two free ends of an operation element of the holding unit are extended from an operation passage of the mounting element into the movable passage from outside of the mounting element, and two free ends of the operation element are respectively provided at a return end of each of the locking elements, wherein in the step (c.3), when the power supply body is provided in the accommodation space of the accommodation body by pulling up the operation element, the operation element pulls each of the locking elements by a weight force of the power supply body along a track formed by the movable passage, and the locking end of each of the locking elements is hidden in the movable passage to bring the holding member into the unlocked state, and after the power supply body is accommodated in the accommodation space of the accommodation body, the return element pushes each of the locking elements to form a movement along the track, and after each of the locking elements is inserted into the movable passage from the locked state to the automatically-held state, the jack is switched from the unlocked state to the inserted state.

Drawings

Fig. 1 is a perspective view of an electric transplanting machine according to a preferred embodiment of the present invention.

Fig. 2A is a schematic perspective view of a modified embodiment of the electric transplanting machine according to the above preferred embodiment of the present invention.

Fig. 2B is a schematic side view of the electric transplanting machine according to the above preferred embodiment of the present invention.

Fig. 3 is a perspective view showing a relationship among a power supply device, a receiving body and a transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic sectional view showing the relationship among the power supply device, the accommodating body and the transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 5A is a perspective view illustrating a combined state of the receiving body and the transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 5B is a perspective view illustrating another view of the combined state of the receiving body and the transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 6A is a perspective view illustrating a view of the power supply device of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 6B is a perspective view illustrating another view of the power supply device of the electric transplanter according to the above preferred embodiment of the present invention.

Fig. 7A and 7B are schematic cross-sectional views of the power supply device, the accommodating body and the transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention, which illustrate a process of disposing the power supply device in the accommodating space of the accommodating body.

Fig. 8A and 8B are schematic cross-sectional views of the power supply device, the accommodating body and the transplanter coupling unit of the electric transplanter according to the above preferred embodiment of the present invention, which illustrate a process of removing the power supply device from the accommodating space of the accommodating body.

Fig. 9 is a schematic sectional view of a variation of the relation among the power supply device, the accommodating body and the holding unit of the electric transplanting machine according to the above preferred embodiment of the present invention.

Fig. 10 is a perspective view showing the above-mentioned modified embodiment of the relationship among the power supply device, the accommodating body and the holding unit of the electric transplanting machine according to the above-mentioned preferred embodiment of the present invention.

Fig. 11 is a perspective view showing another variant of the relation among the power supply device, the accommodating body and the holding unit of the electric transplanting machine according to the above preferred embodiment of the present invention.

Fig. 12 is an exploded view showing the above-described modified embodiment of the relationship among the power supply device, the accommodating body, and the holding unit of the electric transplanting machine according to the above-described preferred embodiment of the present invention.

Fig. 13 is a schematic sectional view of the above-described modified embodiment of the relationship of the power supply device, the accommodating main body, and the holding unit of the electric transplanting machine according to the above-described preferred embodiment of the present invention.

Fig. 14A and 14B are schematic views illustrating a process of switching a holding member of the electric transplanting machine from a locked state to an unlocked state according to the above preferred embodiment of the present invention.

Fig. 15A and 15B are schematic views illustrating a process of switching the holding member of the electric transplanting machine from the unlocked state to the locked state according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments provided in the following description are merely examples and modifications apparent to those skilled in the art and do not constitute a limitation on the scope of the invention. The general principles defined in the following description may be applied to other embodiments, alternatives, modifications, equivalents and applications without departing from the spirit and scope of the invention.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present invention.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 8B of the drawings, which are drawings, an electric transplanter according to a preferred embodiment of the present invention is described in the following description, wherein the electric transplanter comprises a transplanter device 10 and at least one power supply device 20, wherein the power supply device 20 is provided to the transplanter device 10 to drive the transplanter device 10 to operate by supplying power to the transplanter device 10 through the power supply device 20.

Preferably, the power supply device 20 is detachably provided to the transplanting machine device 10, so that the power supply device 20 can be replaced in time to maintain the operating state of the transplanting machine device 10 when the power of the power supply device 20 is exhausted or the power supply device 20 is damaged during the use of the electric transplanting machine.

It is worth mentioning that the number of the power supply devices 20 is not limited in the electric transplanting machine of the present invention, for example, in the example of the electric transplanting machine shown in fig. 1, the number of the power supply devices 20 may be two, and when the number of the power supply devices 20 is implemented as two, two power supply devices 20 are symmetrically held at both sides of the transplanting machine device 10, so that the stability of the transplanting machine device 10 is better and the operation of the electric transplanting machine is convenient for the operator. In the example of the electric transplanting machine shown in fig. 2A and 2B, the number of the power supply devices 20 may also be embodied as one. Preferably, when the number of the power supply devices 20 is implemented as one, the power supply devices 20 may be maintained at the center of gravity position of the transplanting machine device 10 so that the electric transplanting machine has good balance.

It is also worth mentioning that the electric transplanting machine shown in fig. 1, 2A and 2B is only an example, and in other examples of the electric transplanting machine, the number of the power supply devices 20 may be more than two, and in addition, the power supply devices 20 may be held at other positions of the transplanting machine device 10, and the electric transplanting machine of the present invention is not limited in this respect. Accordingly, it will be appreciated by those skilled in the art that the examples of the electric transplanting machine shown in fig. 1, 2A and 2B are merely examples, and do not limit the contents and scope of the electric transplanting machine of the present invention.

In the following description, the features and advantages of the electric transplanting machine of the present invention will be further explained by taking an example in which the number of the power supply devices 20 is implemented as one, and the power supply devices 20 are preferably provided at the center of gravity position of the transplanting machine device 10.

Referring to fig. 2A to 6B, the transplanting machine device 10 includes a transplanting machine body 11, a receiving body 13, and at least one holding unit 14, wherein the receiving body 13 is provided to the transplanting machine body 11, and the receiving body 13 has a receiving space 131 and an opening 132, the opening 132 communicates with the receiving space 131, wherein the power supply device 20 is detachably provided to the receiving space 131 of the receiving body 13 from the opening 132, and the holding unit 14 is held at the opening 132 of the receiving body 13 to prevent the power supply device 20 from falling out of the receiving space 131 from the opening 132 of the receiving body 13, thereby ensuring reliability of the electric transplanting machine in use.

It will be appreciated that when the power supply device 20 needs to be replaced, the holding unit 14 is first moved away from the position of the opening 132 of the accommodating main body 13, or the state of the holding unit 14 in the position of the opening 132 of the accommodating main body 13 is changed, and then the power supply device 20 is taken out from the accommodating space 131 from the opening 132 of the accommodating main body 13. After the power supply device 20 is mounted from the opening 132 of the accommodating body 13 to the accommodating space 131 of the accommodating body 13, the holding unit 14 is held at the opening 132 of the accommodating body 13, or a state of the holding unit 14 in a position of the opening 132 of the accommodating body 13 is changed so that the power supply device 20 is held in the accommodating space 131 of the accommodating body 13 by the holding unit 14.

It is also understood that when the power supply device 20 is held in the accommodation space 131 of the accommodation body 13, the power supply device 20 and the electric circuit of the transplanter body 11 of the transplanter device 10 are conducted so that the power supply device 20 can supply electric power to the transplanter body 11, whereby the transplanter body 11 can convert electric power into kinetic energy to generate power in the following.

Specifically, referring to fig. 2A and 2B, the transplanter body 11 includes a frame 111, a set of traveling mechanisms 112, a transmission mechanism 113, a transplanting mechanism 114, and a motor 115, wherein the traveling mechanisms 112, the transmission mechanism 113, the transplanting mechanism 114, the motor 115, and the accommodating body 13 are respectively disposed on the frame 111 of the transplanter body 11, wherein the motor 115 is conductively connected to a circuit of the transplanter body 11, the transmission mechanism 113 is drivably disposed on the motor 115, and the traveling mechanisms 112 and the transplanting mechanism 114 are respectively drivably disposed on the transmission mechanism 113. When the power supply device 20 is held in the accommodation space 131 of the accommodation body 13, the power supply device 20 conductively connected to the circuit of the transplanting machine body 11 and the motor 115 conductively connected to the circuit of the transplanting machine body 11 are conductively connected, so that after the power supply device 20 supplies electric power to the motor 115, the motor 115 can convert the electric power into kinetic energy to generate power, which is transmitted to the traveling mechanism 112 and the transplanting mechanism 114 by the transmission mechanism 113, respectively, to drive the traveling mechanism 112 and the transplanting mechanism 114 to operate.

Preferably, when the number of the accommodating main bodies 13 is implemented as one, the accommodating main bodies 13 are provided at the center of gravity position of the transplanter main body 11 so that the power supply device 20 held in the accommodating space 131 of the accommodating main body 13 can be held at the center of gravity position of the transplanter main body 11; when the number of the accommodation bodies 13 is tried to be two, the two accommodation bodies 13 are symmetrically disposed at both sides of the center of gravity position of the transplanter body 11 so that the two power supply devices 20 respectively held in the accommodation space 131 of each of the accommodation bodies 13 can be symmetrically held at both sides of the center of gravity position of the transplanter body 11. It will be appreciated by those skilled in the art that in the above manner, on the one hand, it is ensured that the balance of the electric transplanting machine is reasonable in the respective positions, and on the other hand, it is facilitated that the electric transplanting machine is kept balanced, and on the other hand, it is facilitated that the electric transplanting machine is operated in a hand-held manner, in particular. For example, the frame 111 may form a pair of mutually symmetrical hand grips by which the electric transplanting machine can be operated to walk, turn, etc.

Referring to fig. 5A and 5B, the transplanting machine device 10 further includes at least one transplanting machine connecting unit 12, wherein the transplanting machine connecting unit 12 is conductively connected to the circuit of the transplanting machine body 11. Referring to fig. 6A and 6B, the power supply device 20 includes a power supply body 21 and a battery connection unit 22, wherein the battery connection unit 22 is conductively connected to the power supply body 21. When the power supply body 21 is accommodated in the accommodation space 131 of the accommodation body 13 from the opening 132 of the accommodation body 13, the battery connection unit 22 of the power supply device 20 and the transplanter connection unit 12 of the transplanter device 10 can be conducted so that the power supply body 21 can supply electric power to the motor 115 through the battery connection unit 22, the transplanter connection unit 12, and a circuit of the transplanter body 11.

Preferably, the battery connection unit 22 of the power supply device 20 and the transplanter connection unit 12 of the transplanter device 10 can be automatically turned on when the power supply body 21 is received in the receiving space 131 of the receiving body 13 from the opening 132 of the receiving body 13, and the battery connection unit 22 of the power supply device 20 and the transplanter connection unit 12 of the transplanter device 10 can be automatically turned off when the power supply body 21 is taken out of the receiving space 131 of the receiving body 13 from the opening 132 of the receiving body 13, thereby facilitating replacement of the power supply device 20.

It should be noted that the type of the power supply body 21 is not limited in the electric transplanting machine of the present invention, and for example, the power supply body 21 may be implemented as, but not limited to, a lithium battery.

Specifically, referring to fig. 5A to 6B, the accommodating body 13 has a mounting end 133 and an opening end 134 corresponding to the mounting end 133, wherein the accommodating space 131 extends from the opening end 134 toward the direction in which the mounting end 133 is located, and the opening 132 is formed at the opening end 134, that is, the opening 132 communicates with the accommodating space 131 at the opening end 134. The transplanter coupling unit 12 is provided to the mounting end 133 of the accommodating body 13, and the transplanter coupling unit 12 extends from the outside of the accommodating body 13 to the accommodating space 131 of the accommodating body 13. The power supply body 21 has an operation end 211 and a connection end 212 corresponding to the operation end 211, wherein the battery connection unit 22 is provided at the connection end 212 of the power supply body 21. When the power supply device 20 is mounted in the accommodation space 131 of the accommodation body 13 of the transplanting machine device 10, the power supply body 21 is disposed in the accommodation space 131 of the accommodation body 13 in such a manner that the connection end 212 of the power supply body 21 is first put into the accommodation space 131 of the accommodation body 13, so that the battery connection unit 22 and the transplanting machine connection unit 12 are automatically turned on when the power supply body 21 is held in the accommodation space 131 of the accommodation body 13, to achieve rapid replacement of the power supply device 20.

Preferably, the accommodating body 13 is obliquely disposed to the transplanting machine body 11, for example, the accommodating body 13 can be obliquely disposed to the housing 111 of the transplanting machine body 11, specifically, the mounting end 133 of the accommodating body 13 is disposed to the housing 111 of the transplanting machine body 11, and the opening 132 of the accommodating body 13 is obliquely upward, in such a manner that, when the power supply device 20 is mounted to the housing space 131 of the accommodating body 13 of the transplanting machine device 10, the power supply body 21 is disposed to the housing space 131 of the accommodating body 13 in such a manner that the connection end 212 of the power supply body 21 is first placed in the housing space 131 of the accommodating body 13, so that the battery connection unit 22 and the transplanting machine connection unit 12 are automatically turned on due to the gravity of the power supply body 21 when the power supply body 21 is held in the housing space 131 of the accommodating body 13, to achieve rapid replacement of the power supply device 20.

Further, the battery connection unit 22 includes at least one battery conducting element 221, each battery conducting element 221 is conductively connected to the transplanter connection unit 12, and each battery conducting element 221 is disposed at the connection end 212 of the transplanter connection unit 12. Accordingly, the transplanter coupling unit 12 includes at least one transplanter conduction element 121, each of the transplanter conduction elements 121 is conductively coupled to the circuit of the transplanter body 11, wherein each of the transplanter conduction elements 121 is disposed in the accommodating body 13, and each of the transplanter conduction elements 121 is accommodated in the accommodating space 131 of the accommodating body 13, respectively. When the transplanter connecting unit 12 is received in the receiving space 131 of the receiving body 13, the battery conducting element 221 and the transplanter conducting element 121 can be automatically conducted, so that the transplanter connecting unit 12 can supply power to the transplanter body 11.

In one embodiment of the electric transplanter according to the invention, the battery conducting element 221 is embodied as a recessed conducting element, so that the battery conducting element 221 is hidden when the power supply device 20 is detached from the transplanter device 10, in order to avoid that the battery conducting element 221 is touched when the power supply device 20 is moved. The transplanter conduction element 121 is implemented as a protruding conduction element, so that the transplanter conduction element 121 can cause the battery conduction element 221 and the transplanter conduction element 121 to be conducted in such a manner as to be inserted and held in the battery conduction element 221. In another embodiment of the electric transplanter according to the present invention, the battery conducting member 221 may be implemented as a protruding conducting member, and the transplanter conducting member 121 may be implemented as a recessed conducting member, so that the battery conducting member 221 and the transplanter conducting member 121 may be conducted in such a manner that the battery conducting member 221 is inserted into and held by the transplanter conducting member 121. However, those skilled in the art will appreciate that other embodiments of the battery pass element 221 and the transplanter pass element 121 are possible, and the electric transplanting machine of the present invention is not limited in this respect.

In addition, the battery connection unit 22 includes a battery detection interface 222, the battery detection interface 222 is conductively connected to the transplanter connection unit 12, and the battery detection interface 222 is disposed at the connection end 212 of the transplanter connection unit 12. Accordingly, the transplanter coupling unit 12 includes a transplanter detection interface 122, wherein the transplanter detection interface 122 is disposed at the accommodating body 13, and the transplanter detection interface 122 is accommodated in the accommodating space 131 of the accommodating body 13. When the transplanter connecting unit 12 is accommodated in the accommodation space 131 of the accommodation body 13, the battery detection interface 222 and the transplanter detection interface 122 can be automatically turned on. Preferably, the battery detection interface 222 is disposed adjacent to the battery pass-through element 221, and the transplanter detection interface 122 is disposed adjacent to the transplanter pass-through element 121.

It should be noted that the types of the battery detection interface 222 of the battery connection unit 22 and the transplanter detection interface 122 of the transplanter connection unit 12 are not limited in the electric transplanter of the present invention, as long as they can be mutually conducted after the transplanter connection unit 12 is accommodated in the accommodation space 131 of the accommodation body 13.

In addition, the electric transplanter further comprises a positioning portion 30, wherein the positioning portion 30 comprises at least one positioning element 31 and at least one positioning space 32, wherein the positioning element 31 is disposed at the connection end 212 of the transplanter connecting unit 12, the positioning space 32 is disposed at the accommodating body 13, wherein when the transplanter connecting unit 12 is held in the accommodating space 131 of the accommodating body 13, the positioning element 31 can be positioned in the positioning space 32 to prevent the transplanter connecting unit 12 from shaking in the accommodating space 131 of the accommodating body 13, in such a way that the connection between the battery connecting unit 22 and the transplanter connecting unit 12 can be prevented from loosening, thereby ensuring the reliability of the conductive relationship between the battery connecting unit 22 and the transplanter connecting unit 12. Preferably, the positioning element 31 is adjacent to the battery conducting element 221, and the positioning space 32 is adjacent to the transplanter conducting element 121.

It should be noted that, in other examples of the electric transplanting machine of the present invention, the positioning member 31 may be provided to the accommodating body 13, and the positioning space 32 may be provided to the connection end 212 of the transplanting machine connection unit 12.

Referring to fig. 2A to 6B, the power supply device 20 further includes at least one sliding unit 23, wherein the sliding unit 23 is movably disposed at the power supply body 21, and in such a manner that the sliding unit 23 of the power supply device 20 can directly contact the inner wall of the housing body 13 when the power supply device 20 is placed in the housing space 131 of the housing body 13 from the opening 132 of the housing body 13 or when the power supply device 20 is taken out of the housing space 131 of the housing body 13 from the opening 132 of the housing body 13, friction force between the power supply body 21 of the power supply device 20 and the inner wall of the housing body 13 can be reduced to facilitate the removal or installation of the power supply device 20.

That is, the sliding unit 23 can perform rolling with respect to the inner wall of the accommodating body 13 to enable the effort-saving completion of this operation, both when the power supply device 20 is taken out from the accommodating space 131 of the accommodating body 13 and when the power supply device 20 is put into the accommodating space 131 of the accommodating body 13.

It is worth mentioning that the type of the sliding unit 23 is not limited in the electric transplanting machine of the present invention, and for example, the sliding unit 23 may be, but is not limited to, a roller, a ball, or the like.

It is also worth mentioning that it is also possible to provide the sliding unit 23 movably to the inner wall of the housing body 13. When the sliding unit 23 is movably provided to the inner wall of the accommodating body 13, the sliding unit 23 can prevent the outer wall lower side of the power supply body 21 of the power supply device 20 from directly contacting the inner wall of the accommodating body 13 when the power supply device 20 is taken out from the accommodating space 131 of the accommodating body 13 from the opening 132 of the accommodating body 13 or the power supply device 20 is placed in the accommodating space 131 of the accommodating body 13 from the opening 132 of the accommodating body 13, thereby conveniently removing or replacing the power supply device 20. It will be appreciated that the sliding unit 23 is capable of simultaneous movement with respect to the power supply body 21 and the accommodating body 13.

Referring to fig. 2A to 6B, the power supply device 20 includes at least one indicator lamp 24, wherein the indicator lamp 24 is conductively connected to the power supply body 21, so that the status of the power supply body 21 can be indicated by the indicator lamp 24, for example, the remaining power of the power supply body 21 can be indicated by the indicator lamp 24. Preferably, the indicator lamp 24 is provided to the operation end 211 of the power supply body 21 such that the indicator lamp 24 is exposed at the position of the opening 132 of the receiving body 13 when the power supply device 20 is held in the receiving space 131 of the receiving body 13, so that an operator can view the operation of the power supply body 21 through the indicator lamp 24.

Referring to fig. 2A to 6B, the power supply device 20 includes at least one control switch 25, wherein the control switch 25 is conductively connected to the power supply body 21, so that the operating state of the power supply body 21 can be controlled by the control switch 25, for example, whether the power supply body 21 supplies power to the transplanter device 10 can be controlled by the control switch 25. Preferably, the control switch 25 is provided at the operation end 211 of the power supply body 21 such that the control switch 25 is exposed at a position of the opening 132 of the accommodating body 13 when the power supply device 20 is held in the accommodating space 131 of the accommodating body 13, so that an operator can operate the control switch 25.

Referring to fig. 2A to 6B, the power supply device 20 includes an operation handle 26, wherein the operation handle 26 is provided at the operation end 211 of the power supply body 21, wherein the operation handle 26 is exposed at a position of the opening 132 of the accommodating body 13 when the power supply device 20 is held in the accommodating space 131 of the accommodating body 13, so that an operator can detach or replace the power supply device 20 through the operation handle 26.

In addition, referring to fig. 2A to 6B, the power supply device 20 further includes a charging port 27, wherein the charging port 27 is conductively connected to the power supply body 21, so that an external power source can be supplemented into the power supply body 21 through the charging port 27. Preferably, the charging port 27 is provided at the operation end 211 of the power supply body 21 so that the charging port 27 can be exposed at the position of the opening 132 of the accommodating body 13 when the power supply device 20 is held in the accommodating space 131 of the accommodating body 13, so that an external power supply can be supplied into the power supply body 21 through the charging port 27 even when the power supply device 20 does not need to be taken out from the accommodating space 131 of the accommodating body 13.

Referring to fig. 2A to 6B, the accommodating body 13 has at least two insertion holes 135, wherein each insertion hole 135 is provided at the open end 134 of the accommodating body 13, respectively, and each insertion hole 135 communicates with the accommodating space 131 at both sides of the accommodating body 13, respectively. The holding unit 14 includes at least one holding rod 141, wherein both end portions of the holding rod 141 are detachably provided to each of the insertion holes 135 of the accommodating body 13, respectively, to reduce the size of the opening 132 of the accommodating body 13 by the holding rod 141, thereby preventing the power supply device 20 from falling out of the accommodating space 131 from the opening 132 of the accommodating body 13.

Specifically, after the power supply device 20 is disposed in the accommodation space 131 from the opening 132 of the accommodation body 13, both end portions of the holding rod 141 are respectively inserted into each of the insertion holes 135 of the accommodation body 13, so that the holding rod 141 is held at the position of the opening 132 of the accommodation body 13 to reduce the size of the opening 132, in such a manner that the holding rod 141 can prevent the power supply device 20 from falling out of the accommodation space 131 from the opening 132 of the accommodation body 13.

Preferably, when both end portions of the holding rod 141 are respectively inserted into each of the insertion holes 135 of the accommodating main body 13 such that the holding rod 141 is held at the position of the opening 132 of the accommodating main body 13, the holding rod 141 is fitted to the operation end 211 of the power supply body 21 in such a manner that the holding rod 141 can prevent the power supply device 20 from shaking in the accommodating space 131 of the accommodating main body 13, so that, on one hand, abnormal sounds can be prevented from being generated by the contact between the outer wall of the power supply body 21 of the power supply device 20 and the inner wall of the accommodating main body 13, and, on the other hand, shaking can be prevented from occurring at the junction of the battery connection unit 22 of the power supply device 20 and the transplanter connection unit 12 of the transplanter connection unit 10, thereby ensuring reliability when the battery connection unit 22 and the transplanter connection unit 12 are connected to each other.

Further, the power supply device 20 includes at least one mounting element 28, wherein each mounting element 28 is disposed at the operation end 211 of the power supply body 21, and each mounting element 28 has a mounting channel 281. When the power supply device 20 is held in the accommodation space 131 of the accommodation body 13, the mounting passage 281 of each of the mounting members 28 corresponds to each of the insertion holes 135 of the accommodation body 13, respectively, and the holding rod 141 can be simultaneously held in each of the insertion holes 135 of the accommodation body 13 and the mounting passage 281 of each of the mounting members 28, in such a manner that the holding rod 141 can prevent the power supply device 20 from coming off from the opening 132 from the accommodation space 131 of the accommodation body 13 on the one hand and can prevent the power supply device 20 from shaking in the accommodation space 131 of the accommodation body 13 on the other hand, thereby ensuring the reliability of the electric transplanting machine.

Referring to fig. 2A to 6B, the holding unit 14 further includes a cover 142, wherein the cover 142 is movably disposed on the accommodating body 13 to close the opening 132 of the accommodating body 13 by the cover 142. When the power supply device 20 is held in the accommodation space 131 of the accommodation body 13, the cover 142 can be provided to the opening 132 of the accommodation body 13 to close the opening 132 of the accommodation body 13 by the cover 142, thereby preventing the power supply device 20 from falling out of the accommodation space 131 of the accommodation body 13 from the opening 132. In addition, the cover 142 can also prevent rainwater falling from top to bottom from entering into the accommodating space 131 of the accommodating body 13 through the opening 132 of the accommodating body 13 by closing the opening 132 of the accommodating body 13, thereby ensuring reliability of the power supply body 21, particularly, the battery connection unit 22 of the power supply device 20 and the transplanter connection unit 12 of the transplanter device 10 and reliability of connection relationship of the battery connection unit 22 and the transplanter connection unit 12.

Preferably, one side of the cover 142 is pivotally coupled to one side of the accommodating body 13 such that the cover 142 is not dropped from the accommodating body 13 regardless of whether the cover 142 closes the opening 132 of the accommodating body 13 or the cover 142 is manipulated to expose the opening 132 of the accommodating body 13, so as to prevent the cover 142 from being lost during use of the electric transplanter.

In addition, the accommodating body 13 further has at least one passage 136, wherein the passage 136 is provided at the mounting end 133 of the accommodating body 13, and the passage 136 communicates with the accommodating space 131 and the external environment, so that, on the one hand, heat dissipation of the power supply device 20 is facilitated, and, on the other hand, water can be rapidly and automatically discharged through the passage 136 when entering the accommodating space 131 of the accommodating body 13, thereby ensuring reliability and stability of the electric transplanting machine.

Referring to fig. 7A and 7B, in assembling the power supply device 20 to the accommodation space 131 of the accommodation body 13, an operator pulls the power supply body 21 with one hand by the operation handle 26 and holds the power supply body 21 under the outer wall of the power supply body 21 with the other hand, and then places the power supply device 20 in the accommodation space 131 of the accommodation body 13 in such a manner that the connection end 212 of the power supply body 21 is first put into the accommodation space 131 of the accommodation body 13 from the opening 132 of the accommodation body 13. Since the accommodating main body 13 is obliquely disposed so that the sliding unit 23 disposed under the outer wall of the power supply body 21 is in contact with the inner wall of the accommodating main body 13 during this process, and the sliding unit 23 moves with respect to the inner wall of the accommodating main body 13 under the self-weight of the power supply body 21, that is, during this process, the operator does not need to apply a force to the power supply device 20, the power supply device 20 can automatically enter the accommodating space 131 of the accommodating main body 13 and be held in the accommodating space 131 of the accommodating main body 13 by the self-weight of the power supply device 20 alone. As will be appreciated by those skilled in the art, since the transplanter coupling unit 12 is provided at the mounting end 133 of the accommodating body 13, and the transplanter coupling unit 12 extends from the outside of the accommodating body 13 into the accommodating space 131 of the accommodating body 13, the battery coupling unit 22 and the transplanter coupling unit 12 can be automatically conducted in the accommodating space 131 of the accommodating body 13 when the power supply device 20 slides down to the bottom of the accommodating space 131 of the accommodating body 13 due to the self-weight.

In addition, as will be understood by those skilled in the art, in the process that the power supply device 20 slides from the opening end 134 of the accommodating body 13 to the mounting end 133 due to its own weight, the accommodating body 13 is obliquely disposed, so that the inner wall of the accommodating body 13 may simultaneously support the power supply device 20 upwards, so as to avoid the power supply device 20 from sliding downwards too fast, thereby ensuring the reliability of the power supply device 20 in the process of being mounted in the accommodating space 131 of the accommodating body 13.

Referring to fig. 8A and 8B, in the process of taking out the power supply device 20 from the accommodation space 131 of the accommodation body 13, an operator pulls the power supply body 21 obliquely upward with one hand by the operation handle 26, at which time, on the one hand, the sliding unit 23 can reduce friction between the power supply device 20 and the inner wall of the accommodation body 13, and on the other hand, the inner wall of the accommodation body 13 can hold the lower side of the outer wall of the power supply body 21 upward to overcome the gravity of the power supply body 21, so that the operator can pull the power supply body 21 obliquely upward with ease. In addition, when the operation end 211 of the power supply body 21 leaks out of the accommodation space 131 of the accommodation body 13, the other hand of the operator can hold the lower side of the outer wall of the power supply body 21, so that both hands of the operator can apply force to the power supply device 20, thereby conveniently and easily removing the power supply device 20 from the accommodation space 131 of the accommodation body 13.

Fig. 9 and 10 show a modified embodiment of the electric transplanting machine, in which the holding unit 14 further includes at least one buffer portion 143, wherein the buffer portion 143 is held between the cover 142 and the operation end 211 of the power supply body 21 to fill a gap formed between the operation end 211 of the power supply body 21 and the cover 142 by the buffer portion, in such a manner that not only abnormal sound generated by the operation end of the power supply body 21 colliding with the cover 142 but also the shaking of the power supply device 20 in the accommodation space 131 of the accommodation body 13 can be prevented, thereby avoiding an undesirable phenomenon such as loosening at the junction of the battery connection unit 22 and the transplanting machine connection unit 12.

Preferably, the buffer portion 143 has elasticity, so that the coupling manner of the buffer portion 143, the power supply body 21 and the cover 142 may be interference fit, that is, the interference fit of the power supply body 21, the cover 142 and the buffer portion 143 is achieved by the manner in which the buffer portion 143 is deformed, by which the buffer portion 143 can press the power supply body 21 against the mounting end 133 of the accommodating body 13 with a proper pressure so that the battery connection unit 22 can be reliably and stably connected to the transplanter connection unit 12, and the coupling manner of the battery connection unit 22 and the transplanter connection unit 12 is not forcibly changed even when the electric transplanter is applied to an uneven farmland, thereby ensuring the reliability of the electric transplanter. In addition, the buffer portion 143 may prevent the power supply body 21 and the cover 142 from colliding with each other by isolating the operation end 211 of the power supply body 21 and the cover 142.

It is to be noted that the material of the buffer portion 143 is not limited in the electric transplanting machine of the present invention, and for example, the buffer portion 143 may be implemented as, but not limited to, foam, sponge, air bag, or the like.

Referring to fig. 10, the buffer portion 143 is provided to the cover 142 such that the buffer portion 143 is automatically held between the operation end 211 of the power supply body 21 and the cover 142 when the cover 142 is operated to close the opening 132 of the accommodating main body 13. However, it will be understood by those skilled in the art that in some examples of the electric transplanting machine of the present invention, the buffer portion 143 may be provided at the operation end 211 of the power supply body 21, so that the buffer portion 143 is automatically held between the operation end 211 of the power supply body 21 and the cover 142 when the cover 142 is operated to close the opening 132 of the accommodating main body 13. In still other examples of the electric transplanting machine of the present invention, the buffer portion 143 may be one or a set of separate members, the buffer portion 143 being provided to the operation end 211 of the power supply body 21 after the power supply device 20 is accommodated in the accommodation space 131 of the accommodation body 13, or the buffer portion 143 being provided to the cover 142, and the buffer portion 143 being held between the operation end 211 of the power supply body 21 and the cover 142 when the cover 142 is operated to close the opening 132 of the accommodation body 13.

Fig. 11 to 15B show another modified embodiment of the electric transplanting machine, in which the holding unit 14 includes a holding mechanism 144, wherein the holding mechanism 144 further includes a holding member 1441, wherein the holding member 1441 is provided to the power supply body 21 so that, when the power supply device 20 is held in the accommodation space 131 of the accommodation body 13, the holding member 1441 of the holding mechanism 144 can lock the accommodation body 13, thereby preventing the power supply device 20 from coming off from the opening 132 of the accommodation body 13 into the accommodation space 131, and preventing the power supply body 21 of the power supply device 20 from shaking in the accommodation space 131 of the accommodation body 13, in such a manner that not only can adverse phenomena such as abnormal sounds occurring due to the outer wall of the power supply body 21 touching the inner wall of the accommodation body 13, but also adverse phenomena such as loosening occurring at the connection of the battery connection unit 22 and the transplanting machine connection unit 12 can be avoided.

Preferably, the retaining member 1441 is movably provided to the operation end 211 of the power supply body 21, wherein the retaining member 1441 has a locked state and an unlocked state, and the retaining member 1441 is switchable between the locked state and the unlocked state. When the power supply body 21 is held in the accommodation space 131 of the accommodation body 13, the holding member 1441 is in the lock state to lock the accommodation body 13 at the opening end 134 of the accommodation body 13 by the holding member 1441, thereby preventing the power supply device 20 from coming off from the opening 132 of the accommodation body 13 from the accommodation space 131. The retaining member 1441 can be switched to the unlocked state when it is necessary to take out the power supply device 20 from the accommodation space 131 of the accommodation body 13.

In the electric transplanter of the present invention, the retaining member 1441 can be automatically switched between the locked state and the unlocked state so that an operator can quickly replace the power supply device 20, for example, if the power of the power supply body 21 of the power supply device 20 is exhausted or the power supply device 20 is damaged during the use of the electric transplanter, the operator can conveniently and quickly replace the power supply device 20 to maintain the operating state of the electric transplanter.

Specifically, referring to fig. 11 to 15B, the holding mechanism 144 includes a mounting member 1442, wherein the mounting member 1442 is provided to the operation end 211 of the power supply body 21, and at least one movable passage 14421 is formed between the mounting member 1442 and the operation end 211 of the power supply body 21, wherein the movable passage 14421 extends in the width direction of the power supply body 21 such that two openings of the movable passage 14421 are located on both sides of the power supply body 21, respectively. In addition, the mounting member 1442 is further provided with two operation passages 14422, wherein each of the operation passages 14422 communicates with the movable passage 14421 and the outside environment of the mounting member 14421, respectively.

The retaining member 1441 includes two locking elements 14411 and a restoring element 14412, wherein each locking element 14411 has a locking end 144111 and a restoring end 144112 corresponding to the locking end 144111, respectively, wherein the restoring element 14412 is disposed at a middle portion of the movable passage 14421, each locking element 14411 is symmetrically and movably disposed at both sides of the movable passage 14421, respectively, so as to define a moving direction of each locking element 14411 by the movable passage 14421, and both end portions of the restoring element 14412 are connected to the restoring end 144112 of each locking element 14411, respectively. When each of the locking members 14411 is not forced, the locking end 144111 of each of the locking members 14411 protrudes from both ends of the movable passage 14421, and at this time, the retaining member 1441 is in the locked state. Accordingly, when each of the locking members 14411 is forced, the locking end 144111 of each of the locking members 14411 is hidden in the movable passage 14421, at this time, the retaining member 1441 is in the unlocked state, and both end portions of the restoring member 14412 are deformed by being pressed by the restoring end 144112 of each of the locking members 14411, respectively, and when an external force applied to each of the locking members 14411 is withdrawn, the restoring member 14412 returns to the original state, at this time, the restoring member 14412 moves each of the locking members 14411 along the track formed by the movable passage 14421, respectively, so that the locking end 144111 of each of the locking members 14411 protrudes outside the movable passage 14421, thereby switching the retaining member 1441 to the locked state. It will be appreciated that the return element 14412 has an extended state and a compressed state, wherein the return element 14412 is in the extended state when unstressed and in the compressed state when stressed and the return element 14412 is capable of automatically switching from the compressed state to the extended state when the external force applied to the return element 14412 is removed. In addition, when the retaining member 1441 is in the unlocked state, the return element 14412 is in the compressed state, and when the retaining member 1441 is in the locked state, the return element 14412 is in the extended state.

Preferably, the retaining mechanism 144 further comprises an operating element 1443, wherein the operating element 1443 has two free ends 14431, wherein each of the free ends 14431 of the operating element 1443 extends through each of the operating channels 14422 of the mounting elements 1442 to the movable channel 14421, respectively, and each of the free ends 14431 of the operating element 1443 is connected to the return end 144112 of each of the locking elements 14411, respectively.

Referring to fig. 14A and 14B, when the power supply device 20 needs to be removed from the opening 132 of the accommodating main body 13 from the accommodating space 131, an operator can lift the operating element 1443 through the operating element 1443, at this time, due to the gravity action of the power supply main body 21, the two free ends 14431 of the operating element 1443 move synchronously and with the same amplitude from the passage opening end to the passage middle of the movable passage 14421 when the operating element 1443 is pulled, and each free end 14431 of the operating element 1443 pulls each locking element 14411 to move from the passage opening end to the passage middle along the track formed by the movable passage 14421, so that the locking end 144111 of each locking element 14411 is hidden in the movable passage 14421, and the restoring element 14412 is pressed by the restoring end 144112 of each locking element 14411 to generate deformation, at this time, the retaining member 1441 is automatically switched from the locked state to the unlocked state. When the operator continues to apply force to the operation element 1443, the power supply device 20 can be removed from the accommodating space 131 through the opening 132 of the accommodating main body 13.

Referring to fig. 15A and 15B, after the power supply device 20 is mounted in the receiving space 131 from the opening 132 of the receiving body 13, the power supply device 20 is held by the receiving body 13, the external force acting on the operating element 1443 is removed, at this time, during the return of the return element 14412 to the original state, both end portions of the return element 14412 act on the return end 144112 of each locking element 14411, respectively, so that the locking end 144111 of each locking element 14411 protrudes from the movable passage 14421, and the locking end 144111 of each locking element 14411 is locked in each insertion hole 135 of the receiving body 13, respectively, at which time the holding member 1441 is automatically switched from the unlocked state to the locked state, to complete the mounting of the power supply device 20. As can be appreciated, the restoring member 14412 maintains the retaining member 1441 in the locked state by allowing the locking end 144111 of each locking member 14411 to be retained in the insertion hole 135 of the accommodating main body 13, so as to secure reliability of the electric transplanting machine when in use.

Preferably, the length dimension of the return member 14412 is greater than the distance dimension between the two actuating channels 14422 of the mounting member 1442. The distance between the two free ends 14431 of the operating element 1443 is greater than the distance between the two operating channels 14422 of the mounting element 1442.

In addition, according to another aspect of the present invention, there is further provided a power supply method of an electric transplanter, wherein the power supply method includes the steps of:

(a) Extending a transplanter connecting unit 12 conductively connected to a circuit of a transplanter body 11 from outside of a housing body 13 to a housing space 131 of the housing body 13;

(b) A power supply body 21 to be held in the accommodation space 131 of the accommodation body 13 is conductively connected to the transplanter connecting unit 12 through a battery connecting unit 22 conductively connected to the power supply body 21; and

(c) The power supply body 21 is held in the accommodation space 131 of the accommodation body 13 by a holding unit 14 held at the opening of the accommodation body 13 so that the transplanter connection unit 12 and the battery connection unit 22 are reliably conducted in the accommodation space 131 of the accommodation body 13.

Preferably, in the step (b), the battery connection unit 22 is automatically turned on the transplanter connection unit 12 when the power supply body 21 is provided to the accommodation space 131 of the accommodation body 13.

Specifically, in the above method, the transplanter connecting unit 12 extends from the mounting end 133 of the housing main body 13 from the outside of the housing main body 13 to the housing space 131, the battery connecting unit 22 is provided to the connecting end 212 of the power supply body 21, the power supply body 21 is provided to the housing space 131 of the housing main body 13 in such a manner that the connecting end 212 of the power supply body 21 is provided to the housing space 131 of the housing main body 13 first, and the battery connecting unit 22 and the transplanter connecting unit 12 are automatically conducted when the power supply body 21 is held in the housing space 131 of the housing main body 13.

Further, in the above method, the accommodating body 13 is provided obliquely to the transplanter body 11, and the opening of the accommodating body 13 is kept obliquely upward.

Preferably, in the step (c), both end portions of a holding rod 141 of the holding unit 14 are respectively inserted into the insertion holes 135 at the opening of the accommodating body 13 such that the holding rod 141 is held at the opening of the accommodating body 13, whereby the power supply body 21 is held at the accommodating space 131 of the accommodating body 13 by the holding rod 141.

More preferably, in the step (c), the power supply body 21 is prevented from shaking in the accommodating space 131 of the accommodating main body 13 by bringing the holding lever 141 and the operation end 211 of the power supply body 21 into contact with each other.

In another embodiment, in the step (c), a cover 142 is closed at the opening of the accommodating main body 13, and at least one buffer portion 143 is held between the cover 142 and the operation end 211 of the power supply body 21, so that the power supply body 21 is held in the accommodating space 131 of the accommodating main body 13 by the cover 142 and the buffer portion 143. Preferably, the cover 142, the buffer 143, and the power supply body 21 are assembled by interference fit.

In another embodiment, in the step (c), further comprising the step of:

(c.1) disposing a mounting member 1442 of the holding unit 14 at the operation end 211 of the power supply body 21, and forming a movable passage 14421 between the mounting member 1442 and the operation end 211 of the power supply body 21;

(c.2) movably disposing a holding member 1441 of the holding unit 14 to the movable passage 14421 such that the holding member 1441 has a locked state and an unlocked state, and the holding member 1441 is switchable between the locked state and the unlocked state when the holding member 1441 is movable within the movable passage 14421; and

(c.3) in the process of disposing the power feeding body 21 in the accommodation space 131 of the accommodation body 13, the holding member 1441 is held in the unlocked state, and after the power feeding body 21 is accommodated in the accommodation space 131 of the accommodation body 13, the holding member 1441 is switched from the unlocked state to the locked state, and the locking end 144111 of the holding member 1441 is held in the insertion hole 135 of the accommodation body 13.

Preferably, in the step (c.2), further comprising the step of:

(c.2.1) deformably disposing a return element 14412 of the retaining member 1441 in a middle portion of the movable passageway 14421;

(c.2.2) causing two locking elements 14411 of the retaining member 1441 to be movably disposed in the movable passage 14421 and the return end 144112 of each of the locking elements 14411 to be respectively connected to the return element 14412, wherein when the retaining member 1441 is in the locked state, the locking end 144111 of each of the locking elements 14411 protrudes from the movable passage 14421 and the return element 14412 is in the extended state so that the locking end 144111 of each of the locking elements 14411 is held in a state protruding from the movable passage 14421, wherein when the retaining member 1441 is in the unlocked state, the locking end 144111 of each of the locking elements 14411 is hidden from the movable passage 14421 and the return element 14412 is in the compressed state so as to have a tendency to protrude the locking end 144111 of each of the locking elements 14411 from the movable passage 14421; wherein in the step (c.3), after the power supply body 21 is accommodated in the accommodation space 131 of the accommodation body 13, the return member 14412 is switched from the compressed state to the extended state to push each of the locking members 14411 to move along the track formed by the movable passage 14421, and is inserted into the insertion hole 135 of the accommodation body 13 after the locking end 144111 of each of the locking members 14411 protrudes from the movable passage 14421 to automatically switch the retaining member 1441 from the unlocked state to the locked state.

More preferably, in the above method, when the two free ends 14431 of the operating element 1443 of the holding unit 14 are made to extend from the outside of the mounting element 1442 into the movable passage 14421 from the operating passage 14422 of the mounting element 1442, and the two free ends 14431 of the operating element 1443 are respectively provided at the return end 144112 of each of the locking elements 14411, wherein in the step (c.3), when the operating element 1443 is lifted to set the power supply body 21 in the accommodation space 131 of the accommodation body 13, the operating element 1443 is pulled by gravity of the power supply body 21 along the track formed by the movable passage 14421, and the locking end 144111 of each of the locking elements 14411 is hidden in the movable passage 14421, so that the holding member 1441 is in the unlocked state, and when the body 21 is accommodated in the accommodation space of the accommodation body 13, the operating element 1443 is pulled by lifting and the operating element 1443 is automatically pushed to move from the movable passage 14421 to the unlocked state by the gravity of the movable passage 14421, so that each of the locking elements 14421 is made to move along the track formed by the movable passage 14421 after the movable passage 1443 is lifted to the accommodation body 1443, and each of the locking elements 14411 is automatically released from the locked state of the movable passage 14421.

Those skilled in the art will appreciate that the embodiments of the invention shown in the drawings and described above are merely illustrative of the invention and not limiting.

It will thus be seen that the objects of the invention are efficiently attained. The embodiments for explaining the functional and structural principles of the present invention have been fully illustrated and described, and the present invention is not limited by the changes based on the principles of the embodiments. Accordingly, the invention includes all modifications encompassed within the scope and spirit of the following claims.

Claims (20)

1. An electric transplanter, comprising:

at least one power supply device; and

a transplanting machine device, wherein the transplanting machine device comprises a transplanting machine body, at least one accommodating body and at least one holding unit, wherein the accommodating body is arranged on the transplanting machine body, the accommodating body is provided with an accommodating space and an opening communicated with the accommodating space, the power supply device is detachably arranged in the accommodating space from the opening of the accommodating body, and the holding unit is held in the opening of the accommodating body so as to prevent the power supply device from falling off from the opening of the accommodating body into the accommodating space; the accommodating body is obliquely provided to the transplanting machine body;

The power supply device comprises a power supply body and a battery connection unit, wherein the battery connection unit is connected to the power supply body in a conductive manner, the transplanter device comprises at least one transplanter connection unit, the transplanter connection unit is connected to a circuit of the transplanter body in a conductive manner, and the battery connection unit and the transplanter connection unit are connected in a conductive manner when the power supply body is accommodated in the accommodating space of the accommodating body;

the battery connection unit is provided at a connection end of the power supply body, the transplanter connection unit is provided at a mounting end of the accommodating body, and the transplanter connection unit extends from an outside of the accommodating body to the accommodating space, wherein the battery connection unit and the transplanter connection unit are automatically turned on when the power supply body is mounted in the accommodating space of the accommodating body;

the holding unit includes at least one holding mechanism including at least one holding member, wherein the holding member is movably provided to an operation end of the power supply body, wherein the holding member has a locked state, an unlocked state, and at least one locked end, the holding member being allowed to switch between the locked state and the unlocked state to adjust a position of the locked end, wherein an opening end of the accommodating body is provided with at least one insertion hole, each of the insertion holes being respectively communicated with the accommodating space, wherein when the holding member is in the locked state, each of the locking ends of the holding member is allowed to be held at each of the insertion holes of the accommodating body, and when the holding member is in the unlocked state, each of the locking ends of the holding member is allowed to be disengaged from each of the insertion holes of the accommodating body;

The power supply device further includes at least one sliding unit movably disposed at a lower side of an outer wall of the power supply body, the sliding unit being held between the power supply body and an inner wall of the accommodating body; the sliding unit of the power supply device can directly contact an inner wall of the accommodating body when the power supply device is placed in the accommodating space of the accommodating body from the opening of the accommodating body or when the power supply device is taken out of the accommodating space of the accommodating body from the opening of the accommodating body;

the retaining member automatically switches between the locked state and the unlocked state;

the holding mechanism includes at least one mounting element, wherein the mounting element is provided to the operation end of the power supply body, and at least one movable passage is formed at the operation ends of the mounting element and the power supply body, an opening of the movable passage corresponds to the insertion hole of the accommodation body, wherein the holding member is movably provided to the movable passage, wherein when the holding member is in the locked state, the locking end of the holding member protrudes from the movable passage to be held in the insertion hole of the accommodation body, and when the holding member is in the unlocked state, the locking end of the holding member is hidden from the movable passage to be disengaged from the insertion hole of the accommodation body;

The retaining member comprises two locking elements and a restoring element, wherein the restoring element is deformably arranged on the movable channel, the locking element is provided with a restoring end and the locking end corresponding to the restoring end, wherein the restoring end of the restoring element is connected with the restoring element, the restoring element is deformed along a track formed by the movable channel, and the locking element is moved along the track formed by the movable channel;

the restoring element is deformably arranged in the middle of the movable channel, each locking element is movably arranged on two sides of the movable channel respectively, the locking elements are mutually symmetrical, and two end parts of the restoring element are connected to the restoring end of each locking element respectively;

the holding mechanism comprises at least one operating element having two free ends, wherein the mounting element has two operating channels, each of which communicates with the active channel and the environment outside the mounting element, respectively, wherein each of the free ends of the operating element extends through each of the operating channels of the mounting element to the active channel, respectively, and each of the free ends of the operating element is connected to the return end of each of the locking elements, respectively.

2. The electric transplanter according to claim 1, wherein a distance dimension between the two free ends of the operating element is greater than a distance dimension of the two operating channels of the mounting element.

3. The electric transplanter according to any one of claims 1 to 2, wherein the accommodating body is provided at a center of gravity position of the transplanter body.

4. The electric transplanter according to any one of claims 1 to 2, wherein the number of the accommodation bodies is two, wherein two of the accommodation bodies are symmetrically disposed to each other at both sides of a center of gravity position of the transplanter body.

5. The electric transplanting machine according to any one of claims 1 to 2, wherein the holding unit includes at least one cover, wherein the cover is detachably provided to the accommodating main body to close the opening of the accommodating main body by the cover.

6. The electric transplanting machine according to claim 1, wherein the holding unit includes at least one cover, wherein the cover is detachably provided to the accommodating main body to close the opening of the accommodating main body by the cover.

7. The electric transplanter according to claim 6, wherein the holding unit includes at least one buffer portion, wherein the buffer portion is held between the cover and the operation end of the power supply body.

8. The electric transplanting machine according to claim 7, wherein the buffer portion is provided to the cover so as to be automatically held between the cover and the operation end of the power supply body when the cover closes the opening of the accommodating main body.

9. The electric transplanting machine according to claim 8, wherein the holding unit includes at least one holding rod, the open end of the accommodating body is provided with at least two insertion holes, wherein both ends of the holding rod are respectively held at each insertion hole, so that the power supply device is held in the accommodating space of the accommodating body in such a manner that the size of the opening of the accommodating body is reduced by the holding rod.

10. The electric transplanting machine according to claim 9, wherein the holding lever and the operation end of the power supply body are in contact with each other.

11. The electric transplanter according to any one of claims 1 to 2, wherein the power supply means comprises at least one operating handle, wherein the operating handle is provided at an operating end of the power supply body.

12. The electric transplanter according to any one of claims 1-2, wherein the power supply device comprises at least one indicator light, wherein the indicator light is provided at an operating end of the power supply body, and the indicator light is conductively connected to the power supply body.

13. The electric transplanter according to any one of claims 1-2, wherein the power supply device comprises at least one control switch, wherein the control switch is provided at an operation end of the power supply body, and the control switch is conductively connected to the power supply body.

14. The electric transplanter according to claim 13, wherein the accommodating body has at least one passage provided at the mounting end of the accommodating body, and the passage communicates with an external environment of the accommodating body and the accommodating space.

15. A power supply method of an electric transplanter according to any one of claims 1 to 14, characterized in that the power supply method comprises the steps of:

(a) Extending a transplanter connecting unit conductively connected to a circuit of a transplanter body from outside of a housing body to a housing space of the housing body;

(b) A power supply body to be held in the accommodation space of the accommodation body is conductively connected to the transplanter connecting unit through a battery connecting unit conductively connected to the power supply body; the battery connection unit is automatically turned on the transplanter connection unit when the power supply body is disposed in the accommodation space of the accommodation body;

(c) The power supply body is held in the accommodation space of the accommodation body by a holding unit held at an opening of the accommodation body so that the transplanter connection unit and the battery connection unit are reliably conducted in the accommodation space of the accommodation body; inserting both end portions of a holding rod of the holding unit into insertion holes at the opening of the accommodating body, respectively, so that the holding rod is held at the opening of the accommodating body, whereby the power supply body is held in the accommodating space of the accommodating body by the holding rod;

the transplanter connection unit extends from the mounting end of the accommodating body to the accommodating space from the outside of the accommodating body, the battery connection unit is provided to the connection end of the power supply body, the power supply body is provided to the accommodating space of the accommodating body in such a manner that the connection end of the power supply body is provided to the accommodating space of the accommodating body first, and the battery connection unit and the transplanter connection unit are automatically turned on when the power supply body is held in the accommodating space of the accommodating body; disposing the accommodating body obliquely to the transplanting machine body, and keeping an opening of the accommodating body obliquely upward;

Wherein in said step (c), further comprising the step of:

(c.1) disposing a mounting element of the holding unit at the operation end of the power supply body, and forming a movable passage between the mounting element and the operation end of the power supply body;

(c.2) movably disposing a holding member of the holding unit to the movable passage so that the holding member has a locked state and an unlocked state, and being switchable between the locked state and the unlocked state when the holding member is movable within the movable passage; and

(c.3) in the process of disposing the power feeding body in the accommodation space of the accommodation body, holding the holding member in the unlock state, and after the power feeding body is accommodated in the accommodation space of the accommodation body, switching the holding member from the unlock state to the lock state, and the lock end of the holding member being held in the insertion hole of the accommodation body.

16. The power supply method according to claim 15, wherein in the step (c), the power supply body is prevented from shaking in the accommodation space of the accommodation body by bringing the holding lever and the operation end of the power supply body into contact with each other.

17. The power supply method according to any one of claims 15 to 16, wherein in the step (c), a cover is closed at an opening of the accommodating main body, and at least one buffer portion is held between the cover and an operation end of the power supply body, so that the power supply body is held in the accommodating space of the accommodating main body by the cover and the buffer portion.

18. The electric power supply method according to claim 17, wherein the fitting manner among the cover body, the buffer portion, and the power supply body is interference fitting.

19. The electric power supply method according to claim 18, wherein in the step (c.2), further comprising the step of:

(c.2.1) deformably disposing a return element of the retaining member in the middle of the movable channel;

(c.2.2) causing two locking elements of the holding member to be movably disposed in the movable passage, and a return end of each of the locking elements to be respectively connected to the return element, wherein when the holding member is in the locked state, the locking end of each of the locking elements protrudes from the movable passage, and the return element is in an extended state to keep the locking end of each of the locking elements in a state protruding from the movable passage, wherein when the holding member is in the unlocked state, the locking end of each of the locking elements is hidden from the movable passage, and the return element is in a compressed state to have a tendency to protrude the locking end of each of the locking elements from the movable passage; wherein in the step (c.3), after the power supply body is accommodated in the accommodation space of the accommodation body, the return member is switched from the compressed state to the extended state to push each of the locking members to move along the track formed by the movable passage, and is inserted into the insertion hole of the accommodation body after the locking end of each of the locking members protrudes from the movable passage, so that the holding member is automatically switched from the unlocked state to the locked state.

20. The electric power supply method according to claim 19, wherein in the above method, both free ends of an operation element of the holding unit are caused to extend from an outside of the installation element into the movable passage from the operation passage of the installation element, and both free ends of the operation element are respectively provided at a return end of each of the locking elements, wherein in the step (c.3), when the power supply body is provided to the accommodation space of the accommodation body by pulling the operation element, the operation element is caused to move along a track formed by the movable passage by the gravity of the power supply body, and the locking end of each of the locking elements is caused to be hidden in the movable passage to bring the holding member into the unlocked state, and after the power supply body is accommodated in the accommodation space of the accommodation body, the return element pushes each of the locking elements to move along the track by pulling the operation element, and the movement of each of the locking elements is caused to be automatically switched from the locked state to the unlocked state after each of the insertion holes is formed in the movable passage.