CN215722030U - Stabilizer - Google Patents

Abstract

The utility model relates to the technical field of photographic equipment, in particular to a stabilizer; the motor is connected with the power box in a rotating mode, the objective table is fixedly connected with the motor, the power box is connected with the handheld portion body in a detaching mode, the safety lock is fixedly connected with the handheld portion body, the lock rod is connected with the handheld portion body in a sliding mode, the lock pin is fixedly connected with the lock rod and penetrates through the lock groove, the lock catch is fixedly connected with the lock rod, the power box is additionally arranged on the cloud platform portion to supply power to the cloud platform portion independently, when the handheld portion is installed with the cloud platform portion, the lock pin slides from wide to narrow along the inner groove edge of the safety groove, the lock pin is installed and installed when being clamped on the outer side of the groove edge of the safety groove, when the handheld portion is detached from the cloud platform portion, the lock rod compression spring is pressed, the lock pin is separated from clamping with the outer side of the lock groove, the lock pin slides from narrow to wide along the groove edge in the safety groove, detachment is achieved, and the problem that the existing stabilizer handheld portion and the power box are difficult to detach is solved.

Description

Stabilizer

Technical Field

The utility model relates to the technical field of photographic equipment, in particular to a stabilizer.

Background

The handheld stabilizer of prior art includes handheld portion, motor and objective table, and the motor is connected with handheld portion, and the objective table is connected with the motor, and the objective table is used for bearing the shooting equipment, is equipped with the battery in the handheld portion, and this battery is the electronic parts power supply such as control key, motor in the handheld portion.

However, the battery in the handheld portion is limited in power supply, the power consumption is too fast in the using process, the power use of a large stabilizer cannot be met, the power is supplied to the holder portion through the additional second power supply in the market for solving the problems, in the using process, when the handheld portion is found and detached to serve as a remote controller, the handheld portion and the second power supply are detached difficultly, and the use is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stabilizer, and aims to solve the problem that a handheld part and a power box of the conventional stabilizer are difficult to disassemble.

In order to achieve the above purpose, the utility model provides a stabilizer, which comprises a cloud platform part and a handheld part, wherein the cloud platform part comprises an object stage, a motor and a power box, the motor is rotatably connected with the power box and is positioned at the top of the power box, the object stage is fixedly connected with the motor and is positioned at one side far away from the power box, the power box is provided with a first connecting part, a dovetail part, a safety slot, a charging interface and a second connecting part, the handheld part comprises a handheld part body and a safety lock, the handheld part body is provided with a sliding slot part, the power box is detachably connected with the handheld part body and is positioned in the sliding slot part, the safety lock is fixedly connected with the handheld part body and is positioned at one side near the motor, the safety lock comprises a lock rod, a lock pin, a lock catch and a lock slot, and the lock slot is arranged at one side of the handheld part body, the lock rod is connected with the handheld part body in a sliding mode and located in the lock groove, the lock pin is fixedly connected with the lock rod and penetrates through the lock groove, the lock catch is fixedly connected with the handheld part body and located on one side close to the lock rod, the motor of the cloud platform part is independently powered through the power box, and the handheld part and the cloud platform part are fixedly connected through the first connecting part. The motor comprises a course motor, a roll motor and a pitching motor, the course motor is connected with the power box in a rotating mode and located at the top of the power box, the roll motor is fixedly connected with the course motor and located far away from one side of the power box, the pitching motor is fixedly connected with the roll motor and located far away from one side of the course motor, the course motor is used for adjusting the course angle of the shooting equipment, the roll motor is used for adjusting the roll angle of the shooting equipment, and the pitching motor is used for adjusting the pitching angle of the shooting equipment.

The power box is arranged on the side part of the course motor, stretches across the top of the handheld part and forms a T-shaped structure with the handheld part, so that a user has a certain balance effect when holding the handheld part.

The bottom of the power box is provided with a first electric connection part, the top of the handheld part is provided with a second electric connection part, the first electric connection part is connected with the second electric connection part in a matching mode, and the first electric connection part and the second electric connection part are connected through the first electric connection part and the second electric connection part, so that the instruction of the handheld part is transmitted to the cloud platform part through the power box.

The bottom of the power box further comprises an adapter, the adapter is a threaded adapter, and the adapter is used for being connected with external parts such as an external extension rod and a tripod, so that the shooting range can be conveniently expanded, or shooting can be carried out at a certain position.

The inner groove of the safety groove is gradually narrowed from width, the length of the inner groove of the safety groove is smaller than that of the first connecting part, the lock pin slides from the wide end to the narrow end along the inner groove of the safety groove during installation, the lock pin is always abutted against the inner groove arm during sliding of the lock pin in the inner groove of the safety groove, and the lock pin is stopped at the outer side of the narrow end of the inner groove of the safety groove after installation.

The cloud platform part further comprises a motor lock and an on-off key, the motor lock is fixedly connected with the power box and located on one side of the power box, the on-off key is connected with the power box in a sliding mode and located on one side of the motor lock, the motor lock is used for locking and unlocking a rotor of the course motor body, and the on-off key is used for controlling the power box to supply power to the motor.

The course motor comprises a course motor body and a first connecting arm, the course motor body is rotatably connected with the power box and is positioned at the top of the power box, the first connecting arm is fixedly connected with the course motor body and is positioned at one side far away from the course motor body, the course motor body is used for adjusting the course angle of the shooting equipment, and the first connecting arm is used for connecting the course motor body and the rolling motor.

The horizontal rolling motor comprises a horizontal rolling motor body and a second connecting arm, the horizontal rolling motor body is fixedly connected with the first connecting arm and located far away from one side of the course motor body, the second connecting arm is fixedly connected with the horizontal rolling motor body and located on one side of the horizontal rolling motor body, the horizontal rolling motor body is used for adjusting the vertical angle of the shooting device, and the second connecting arm is used for connecting the horizontal rolling motor body and the pitching motor.

Wherein, the every single move motor includes every single move motor body and third linking arm, the every single move motor body with second linking arm fixed connection just is located and keeps away from roll motor body one side, the third linking arm with every single move motor body fixed connection just is located every single move motor body one side, the every single move motor body is used for adjusting the shooting equipment angle of pitching, the third linking arm is used for connecting the every single move motor body with the objective table.

The objective table is used for placing shooting equipment, the power box is additionally arranged on the tripod head part and supplies power to the motor of the tripod head part independently to meet the requirement of the larger tripod head part, the charging interface is used for connecting a power supply to charge the power box, the power box is connected with external equipment through the second connecting part, the lock pin is arranged on the lock rod and extends out of the lock groove, the lock rod is arranged in the lock groove, one end of the lock rod is connected with the lock groove through a spring, the other end of the lock rod is contacted with the lock catch, when the lock catch is pressed, the lock rod drives the lock pin to slide from one side of the lock groove to the other side, the lock pin is in sliding contact with the safe groove, and the power box is connected and detached with the handheld part through the first connecting part, specifically, when the handheld portion with the installation of cloud platform portion, will the power supply box the swallow tail portion inserts the sliding groove portion of handheld portion body, the lockpin is followed the inside groove of insurance groove slides to the narrow end from wide end gradually, the lockpin joint is in during the outside on insurance groove limit, handheld portion with the installation of cloud platform portion is accomplished, when handheld portion and cloud platform portion are dismantled, presses the hasp messenger the locking lever compression spring, thereby makes the lockpin with the outside of locked groove breaks away from the joint, and makes the lockpin is in slide to the wide end from the narrow end in the insurance groove, and will the power supply box the dovetail with the sliding groove portion of handheld portion body realizes quick dismantlement, solves the problem that current stabilizer handheld portion and power supply box dismantle the difficulty.

Drawings

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

FIG. 1 is a schematic structural diagram of a stabilizer provided by the present invention;

FIG. 2 is an exploded view of a stabilizer provided by the present invention;

fig. 3 is a schematic structural diagram of a platform part of a stabilizer provided by the present invention;

fig. 4 is a bottom view of a platform part of a stabilizer according to the present invention;

FIG. 5 is a schematic structural diagram of a hand-held portion of a stabilizer provided by the present invention;

fig. 6 is a top view of a hand-held portion of a stabilizer provided by the present invention.

In the figure: 1-a cloud platform part, 2-a handheld part, 11-an objective table, 12-a motor, 13-a power supply box, 14-a first connecting part, 15-a swallowtail part, 16-a safety slot, 17-a charging interface, 18-a second connecting part, 19-a motor lock, 110-a switch key, 21-a handheld part body, 22-a sliding groove part, 23-a safety lock, 121-a course motor, 122-a roll motor, 123-a pitch motor, 231-a lock rod, 232-a lock pin, 233-a lock catch, 234-a lock groove, 1211-a course motor body, 1212-a first connecting arm, 1221-a roll motor body, 1222-a second connecting arm, 1231-a pitch motor body, 1232-a third connecting arm, 131-a first electric connecting part, 132-a second electric connecting part, 133-an adapter.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 6, the present invention provides a stabilizer, including a cloud platform portion 1 and a handheld portion 2, where the cloud platform portion 1 includes an object stage 11, a motor 12 and a power box 13, the motor 12 is rotatably connected to the power box 13 and is located at the top of the power box 13, the object stage 11 is fixedly connected to the motor 12 and is located at a side far from the power box 13, the power box 13 has a first connecting portion 14, a dovetail portion 15, a safety catch 16, a charging interface 17 and a second connecting portion 18, the handheld portion 2 includes a handheld portion body 21 and a safety lock 23, the handheld portion body 21 has a sliding groove portion 22, the power box 13 is detachably connected to the handheld portion body 21 and is located in the sliding groove portion 22, the safety lock 23 is fixedly connected to the handheld portion body 21 and is located at a side close to the motor 12, and the safety lock 23 includes a lock rod 231, a locking rod, and a locking rod locking the locking rod 23, the locking rod, the locking rod, the locking of the locking of the locking of the locking portion body 21, the locking portion of the, The locking mechanism comprises a locking pin 232, a locking buckle 233 and a locking groove 234, wherein the locking groove 234 is arranged on one side of the handheld part body 21, the locking rod 231 is connected with the handheld part body 21 in a sliding mode and is located in the locking groove 234, the locking pin 232 is fixedly connected with the locking rod 231 and penetrates through the locking groove 234, and the locking buckle 233 is fixedly connected with the handheld part body 21 and is located on one side close to the locking rod 231.

In this embodiment, the object stage 11 is used to place a shooting device, the power box 13 is additionally arranged on the platform portion 11, the power box 13 supplies power to the motor 12 of the platform portion 1 individually to meet the requirement of the larger platform portion 1, the charging interface 17 is used to connect a power supply to charge the power box 13, the power box 13 is connected to an external device through the second connecting portion 18, the external device may be a handle, the lock pin 232 is arranged on the lock rod 231 and extends out of the lock slot 234, the lock rod 231 is arranged in the lock slot 234, one end of the lock rod 231 is connected to the lock slot 234 through a spring, the other end of the lock rod 231 is in contact with the lock catch 233, when the lock catch 233 is pressed, the lock rod drives the lock pin 232 to slide, the lock pin 232 is in sliding contact with the safety slot 16, the power box 13 is connected to and disconnected from the handheld portion 2 through the first connecting portion 14, specifically, when the hand-held unit 2 is attached to the platform unit 1, the dovetail 15 of the power supply box 13 is inserted into the slide groove 22 of the hand-held unit body 21, the lock pin 232 slides from the wide end to the narrow end along the inner groove of the safety groove 16, when the lock pin 232 is clamped at the outer side of the groove edge of the safety groove 16, the installation of the handheld part 2 and the cloud platform part 1 is completed, when the hand-held part 2 is detached from the platform part 1, pressing the locker 233 causes the locking bar 231 to compress the spring, thereby disengaging the locking pin 232 from the outside of the locking slot 234, and sliding the locking pin 232 within the safety slot 16 from the narrow end to the wide end, and the dovetail groove of the power box 13 and the sliding groove part 22 of the handheld part body 21 are quickly disassembled, so that the problem that the handheld part of the existing stabilizer and the power box are difficult to disassemble is solved.

Further, the motor 12 includes a heading motor 121, a roll motor 122 and a pitch motor 123, the heading motor 121 is rotatably connected to the power box 13 and is located at the top of the power box 13, the roll motor 122 is fixedly connected to the heading motor 121 and is located at a side far from the power box 13, the pitch motor 123 is fixedly connected to the roll motor 122 and is located at a side far from the heading motor 121, the heading motor 121 includes a heading motor body 1211 and a first connecting arm 1212, the heading motor body 1211 is rotatably connected to the power box 13 and is located at the top of the power box 13, the first connecting arm 1212 is fixedly connected to the heading motor body 1211 and is located at a side far from the heading motor body 1211, the roll motor 122 includes a roll motor body 1221 and a second connecting arm 1222, the roll motor body 1221 is fixedly connected to the first connecting arm 1212, and is located far away from the heading motor body 1211 side, the second connecting arm 1222 is fixedly connected with the roll motor body 1221 and is located at the roll motor body 1221 side, the pitch motor 123 includes a pitch motor body 1231 and a third connecting arm 1232, the pitch motor body 1231 is fixedly connected with the second connecting arm 1222 and is located far away from the roll motor body 1221 side, and the third connecting arm 1232 is fixedly connected with the pitch motor body 1231 and is located at the pitch motor body 1231 side.

In this embodiment, the heading motor 121 has a heading circuit board, the roll motor 122 has a roll circuit board, the pitch motor 123 has a pitch circuit board, the heading motor body 1211 drives the first connecting arm 1212 to rotate in the heading direction, the first connecting arm 1212 is used to connect the heading motor body 1211 with the roll motor 122, the roll motor body 1221 drives the second connecting arm 1222 to rotate in the roll direction, the second connecting arm 1222 is used to connect the roll motor body 1221 with the pitch motor 123, the pitch motor body 1231 drives the third connecting arm 1232 to rotate in the pitch direction, and the third 123connecting arm 2 is used to connect the pitch motor body 1231 with the stage 11.

Further, the power supply box 13 is disposed at a side portion of the heading motor 121, and spans over a top portion of the handheld portion 2 to form a T-shaped structure with the handheld portion 2, a first electrical connection portion 131 is disposed at a bottom portion of the power supply box 13, a second electrical connection portion 132 is disposed at the top portion of the handheld portion 2, the first electrical connection portion 131 is in matching connection with the second electrical connection portion 132, the bottom portion of the power supply box 13 further includes an adapter 133, the adapter 133 is a threaded adapter 133, an inner groove of the safety groove 23 is gradually narrowed from a width, and a length of the inner groove of the safety groove 23 is smaller than a length of the first connection portion 14.

In this embodiment, the power supply box 13 is disposed across the top of the hand-held portion 2 so that a user can have a certain balance function when holding the hand-held portion 2, the first electrical connection portion 131 and the second electrical connection portion 132 are connected so that a command of the hand-held portion 2 is transmitted to the platform portion 1 through the power supply box 13, the adaptor 133 is used for being connected to an external member such as an external extension rod or a tripod so as to expand a photographing range, or photographing is fixed at a certain position, the lock pin 234 slides gradually from a wide end to a narrow end along the inner groove of the safety groove 16 during mounting, so that the lock pin 234 always abuts against the inner groove arm of the safety groove 16 when sliding in the inner groove of the safety groove 16, and after mounting, the lock pin 234 stops outside the narrow end of the inner groove of the safety groove 16.

Further, the cloud platform part 1 further comprises a motor lock 19 and an on-off key 110, the motor lock 19 is fixedly connected with the power box 13 and located on one side of the power box 13, and the on-off key 110 is slidably connected with the power box 13 and located on one side of the motor lock 19.

In this embodiment, the motor lock 19 is used for locking and unlocking the rotor of the heading motor body 1211, and the on-off key 110 is used for controlling the power box 13 to supply power to the motor 12.

The utility model relates to a stabilizer, which comprises a cloud platform part 1 and a handheld part 2, wherein the cloud platform part 1 comprises an object stage 11, a motor 12, a power box 13, a first connecting part 14, a dovetail part 15, a safety slot 16, a charging interface 17, a second connecting part 18, a motor lock 19 and an on-off key 110, the motor 12 comprises a heading motor 121, a roll motor 122 and a pitch motor 123, the heading motor 121 comprises a heading motor body 1211 and a first connecting arm 1212, the roll motor 122 comprises a roll motor body 1221 and a second connecting arm 1222, the pitch motor 123 comprises a pitch motor body 1231 and a third connecting arm 1232, the handheld part 2 comprises a handheld part body 21, a sliding slot part 22 and a safety lock 23, the safety lock 23 comprises a lock rod 231, a lock pin 232, a lock catch 233 and a lock slot 234, the heading motor body 1211 is used for adjusting the heading angle of a shooting device, and the first connecting arm 1212 is used for connecting the heading motor body 1211 and the roll motor 122, the roll motor body 1221 is used to adjust a roll angle of a shooting device, the second connecting arm 1222 is used to connect the roll motor body 1221 and the pitch motor 123, the pitch motor body 1231 is used to adjust a pitch angle of the shooting device, the third connecting arm 1232 is used to connect the pitch motor body 1231 and the stage 11, the motor lock 19 locks and unlocks a rotor of the heading motor body 1211, the stage 11 is used to place the shooting device, the on-off key 110 is pressed, the power box 13 supplies power to the motor 12 of the stage 1 separately to meet the requirement of the large stage 1, the charging interface 17 is used to connect the power box 13 to charge the power box 13, the power box 13 is connected to an external device through the second connecting portion 18, and the external device can be a handle; the lock pin 232 is arranged on the lock rod 231 and extends out of the lock groove 234, the lock rod 231 is arranged in the lock groove 234, one end of the lock rod 231 is connected with the lock groove 234 through a spring, the other end of the lock rod 231 is in contact with the lock catch 233, when the lock catch 233 is pressed, the lock rod 231 drives the lock pin 232 to slide from one side of the lock groove 234 to the other side, the lock pin 232 is in sliding contact with the safety groove 16, the power supply box 13 is connected and detached with the handheld part 2 through the first connecting part 14, specifically, when the handheld part 2 is installed with the cloud platform part 1, the dovetail part 15 of the power supply box 13 is inserted into the sliding groove part 22 of the handheld part body 21, the lock pin 232 slides from the wide end to the narrow end along the inner groove of the safety groove 16, and the lock pin 232 is clamped outside the groove 16, the installation of handheld portion 2 with platform portion 1 is accomplished, when handheld portion 2 and platform portion 1 are dismantled, presses hasp 233 makes locking lever 231 compression spring to make lockpin 232 with the outside of locked groove 234 breaks away from the joint, and makes lockpin 232 is in slide to the wide end from the narrow end in the safe deposit box 16, and will power supply box 13 the dovetail with handheld portion body 21 the spout portion 22 realizes quick dismantlement, solves the problem that current stabilizer handheld portion and power supply box dismantle the difficulty.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. A stabilizer is characterized in that a stabilizer body is provided with a plurality of stabilizing grooves,

the portable cloud platform comprises a cloud platform part and a handheld part, wherein the cloud platform part comprises an object stage, a motor and a power box, the motor is rotatably connected with the power box and is positioned at the top of the power box, the object stage is fixedly connected with the motor and is positioned at one side far away from the power box, the power box is provided with a first connecting part, a dovetail part, a safety slot, a charging interface and a second connecting part, the handheld part comprises a handheld part body and a safety lock, the handheld part body is provided with a sliding slot part, the power box is detachably connected with the handheld part body and is positioned in the sliding slot part, the safety lock is fixedly connected with the handheld part body and is positioned at one side close to the motor, the safety lock comprises a lock rod, a lock pin, a lock catch and a lock slot, the lock slot is arranged at one side of the handheld part body, the lock rod is slidably connected with the handheld part body and is positioned in the lock slot, the lock pin is fixedly connected with the lock rod and penetrates through the lock groove, and the lock catch is fixedly connected with the handheld part body and is positioned on one side close to the lock rod.

2. A stabilizer according to claim 1,

the motor comprises a course motor, a roll motor and a pitching motor, the course motor is rotatably connected with the power box and is positioned at the top of the power box, the roll motor is fixedly connected with the course motor and is positioned at one side far away from the power box, and the pitching motor is fixedly connected with the roll motor and is positioned at one side far away from the course motor.

3. A stabilizer according to claim 2,

the power box is arranged on the side part of the course motor, stretches across the top of the handheld part and forms a T-shaped structure with the handheld part.

4. A stabilizer according to claim 3,

the bottom of the power box is provided with a first electric connection part, the top of the handheld part is provided with a second electric connection part, and the first electric connection part is connected with the second electric connection part in a matched mode.

5. A stabilizer according to claim 4,

the bottom of the power box further comprises an adapter, and the adapter is a threaded adapter.

6. A stabilizer according to claim 5,

the inner groove of the safety groove is gradually narrowed from width, and the length of the inner groove of the safety groove is smaller than that of the first connecting part.

7. A stabilizer according to claim 1,

the cloud platform part further comprises a motor lock and an on-off key, the motor lock is fixedly connected with the power box and located on one side of the power box, and the on-off key is connected with the power box in a sliding mode and located on one side of the motor lock.

8. A stabilizer according to claim 6,

the course motor comprises a course motor body and a first connecting arm, the course motor body is rotatably connected with the power box and is positioned at the top of the power box, and the first connecting arm is fixedly connected with the course motor body and is positioned on one side far away from the course motor body.

9. A stabilizer according to claim 8,

the transverse rolling motor comprises a transverse rolling motor body and a second connecting arm, the transverse rolling motor body is fixedly connected with the first connecting arm and located far away from one side of the course motor body, and the second connecting arm is fixedly connected with the transverse rolling motor body and located on one side of the transverse rolling motor body.

10. A stabilizer according to claim 9,

the pitching motor comprises a pitching motor body and a third connecting arm, the pitching motor body is fixedly connected with the second connecting arm and is located far away from one side of the rolling motor body, and the third connecting arm is fixedly connected with the pitching motor body and is located on one side of the pitching motor body.

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