CN212430395U - Handheld stabilizer convenient to adjust balance - Google Patents

Abstract

The utility model discloses a handheld stabilizer convenient for adjusting balance, which comprises a holder and a handle, wherein the holder comprises an X-direction adjusting mechanism, a Y-direction adjusting mechanism and a Z-direction adjusting mechanism which are arranged on a load table; the Z-direction adjusting mechanism comprises a camera connecting arm and a loading platform in sliding connection with the camera connecting arm; the X-direction adjusting mechanism comprises a load platform and a substrate which is connected with the load platform in a sliding way; the Y-direction adjusting mechanism comprises a base plate and a quick-mounting plate in sliding connection with the base plate; the X direction, the Y direction and the Z direction are mutually vertical. The utility model provides a pair of stabilizer focus adjustment mechanism has solved current stabilizer focus adjustment mechanism speed governing slowly, operates comparatively loaded down with trivial details problem.

Description

Handheld stabilizer convenient to adjust balance

Technical Field

The utility model relates to a cloud platform technical field, especially a handheld stabilizer convenient to adjust balance.

Background

Existing stabilizers are used to mount, secure and support the photographic equipment. The mass and center of gravity differences between different cameras are large. In order to adapt the stabilizer to various cameras, a mechanism capable of adjusting the center of gravity of different cameras needs to be arranged on the stabilizer. The existing stabilizer generally comprises three motors which are perpendicular to each other and orthogonally distributed, wherein the three motors are an X-axis motor, a Y-axis motor and a Z-axis motor respectively, the three motors are connected through a connecting arm, the Z-axis motor is connected with an objective table, and the objective table is used for fixing the target carrier, namely a camera or a mobile phone. The center of gravity adjusting mechanism on the existing stabilizer is generally arranged on each motor, and the structure not only causes the motor to be too large in shape, so that the stabilizer is heavier, and the center of gravity is not easy to adjust and the stabilizer is not easy to operate. How to design a stabilizer gravity center adjusting mechanism to realize the quick and accurate fine adjustment of the gravity center of a camera is a problem to be solved in the prior art.

SUMMERY OF THE UTILITY MODEL

To the problem that prior art exists, the utility model provides a handheld stabilizer convenient to adjust balance can realize quick, the accurate fine setting of camera focus.

For realizing the purpose of the utility model, the utility model discloses a technical scheme is: a handheld stabilizer convenient for balance adjustment comprises a holder and a handle, wherein the holder comprises a load bearing platform, and a stabilizer center adjusting mechanism is arranged on the load bearing platform of the holder and comprises an X-direction adjusting mechanism, a Y-direction adjusting mechanism and a Z-direction adjusting mechanism; the X-direction adjusting mechanism is used for adjusting the balance of the roll motor, and the Y-direction adjusting mechanism and the Z-direction adjusting mechanism are used for adjusting the balance of the pitching motor. The load table is used for erecting shooting equipment, and the structure that the gravity center adjusting mechanism in three directions needs to be arranged on each motor in the prior art is replaced by the gravity center adjusting mechanism in the three directions arranged on the load table, so that the adjustment by a user is facilitated, the adjustment only needs to be carried out on one structure of the load plate, and the user experience is improved; simultaneously save motor housing's guiding mechanism, the motor linking arm in this scheme and the shell parallel and level that removes guiding mechanism for the motor attenuation, stabilizer product are compacter.

The technical scheme is that the stabilizer gravity center adjusting mechanism comprises a camera connecting arm, a base plate and a quick mounting plate which are fixedly connected with a shell of the pitching motor; the camera connecting arm and the load table which is connected with the camera connecting arm in a sliding mode are used for adjusting the Z direction; the loading table and the substrate which is connected with the loading table in a sliding way are adjusted in the X direction; the base plate and the fast-assembling plate which is connected with the base plate in a sliding way are adjusted in the Y direction; the X direction, the Y direction and the Z direction are mutually vertical; the sliding structure is adopted to replace a structure of arranging a slide way on a motor shell in the prior art, so that the integral structure of the stabilizer is more compact while the adjustment is convenient.

The camera connecting arm is fixed in a guide groove of the loading platform through a clamping block.

The further technical proposal is that the loading platform is fixed in the guide groove of the base plate through a clamping block.

The further technical scheme is that the quick-mounting plate is fixed in a guide groove of the base plate through a clamping block.

The further technical scheme is that the motor comprises a pitching motor and a course motor, the pitching motor is connected with a camera connecting arm, and a heading motor shell is provided with a guide groove matched with the connecting arm connected with the course motor.

The further technical scheme is that the connecting arm is fixed in a guide groove of a heading motor shell through a clamping screw.

The camera connecting arm clamping device has the further technical scheme that the load table is provided with an anti-falling screw or pin, and a clamping block for clamping the camera connecting arm is provided with a groove or a hole matched with the anti-falling screw or pin; the screw or the pin for fixing the shell is also used for preventing the clamping block from falling off, namely transversely falling off, so that two functions of one component are realized; the camera connecting arm can slide in the guide groove, the guide groove structure is narrowed by screwing the screw, and the position of the camera connecting arm in the guide groove is fixed; in the use process, when the fastening screw falls off, the clamping block and the load platform can fall off along with the fastening screw, and the structure that the anti-falling screw or the pin is matched with the groove or the hole in the scheme can prevent the clamping block from falling off, namely prevent the load platform from transversely falling off because the anti-falling screw or the pin positioned on the load platform is always positioned in the groove or the hole even when the fastening screw falls off; the structure of this scheme can prevent not adding the exterior structure again of droing of pressing from both sides tight piece, can effectively prevent the collision of load platform and stabilizer linking arm.

The anti-dropping screw or pin in the scheme is matched with the groove or the hole, so that the clamping block can be prevented from dropping off while the sliding of the clamping block and the connecting arm is not hindered.

The camera connecting arm is characterized in that a limiting structure matched with the loading platform is arranged at the bottom end of the camera connecting arm; when adjusting loose screw, the load platform can slide along the linking arm, and the limit structure of this scheme can prevent vertically droing when the load platform slides to the linking arm bottom.

Its further technical scheme does, the handle includes first linking arm and second linking arm, and the one end of first linking arm and the one end rigid connection of second linking arm, the junction tip of first handle and second handle set up the cloud platform interface, and first linking arm is used for gripping and sets up controlling means.

The further technical scheme is that the other end of the first connecting arm and/or the second connecting arm is provided with a movable interface.

Further, a battery compartment is arranged on the second handle.

Furthermore, the included angle between the first handle and the second handle is between 60 and 120 degrees.

Furthermore, the axial direction of the end face of the movable connector part of the second handle and the axial direction of the second handle form an included angle of 0-90 degrees.

Further, the movable interface is used for connecting the support frame or the expansion handheld part with the stabilizer handle.

Furthermore, the movable connection mode is one of bolt connection, buckle connection and magnetic connection.

The utility model has the advantages that the gravity center adjusting mechanism is respectively arranged on the guide shell and the load platform, so that the gravity center adjustment of the stabilizer is more centralized, and the operation is more portable and efficient; the user can select various using modes; the operation of the holder can be more labor-saving by changing various using modes; the user experience can be further optimized.

The utility model adopts the three-direction leveling mechanism in the load platform area to replace the structure that the gravity center adjusting mechanism on the stabilizer needs to be respectively arranged on each motor in the prior art, thereby being convenient for users to adjust and only needing to adjust on one structure of the load plate, and improving the user experience; simultaneously save motor housing's guiding mechanism, the motor linking arm in this scheme and the shell parallel and level that removes guiding mechanism for the motor attenuation, stabilizer product are compacter.

The utility model adopts the structure that the screw or the pin is matched with the groove or the hole, even when the fastening screw falls off, the screw positioned on the loading platform is always positioned in the groove, so that the clamping block can be prevented from falling off, namely the loading platform is prevented from transversely falling off; the groove or the hole can be displaced along the radial direction of the screw or the pin, so that the structure of the screw or the pin matched with the groove or the hole can prevent the clamping block from falling off while not hindering the sliding of the clamping block; the clamp block can be prevented from falling off, an external structure is not added, and the collision between the load bearing platform and the stabilizer connecting arm can be effectively prevented.

Drawings

FIG. 1: handheld stabilizer overall structure schematic diagram convenient to adjust balance

FIG. 2: the utility model discloses a structural schematic diagram of a centering adjusting mechanism of a stabilizer;

FIG. 3: the utility model discloses a bottom view of the center adjusting mechanism of the stabilizer;

FIG. 4: the utility model discloses a stabilizer heavy center adjustment mechanism's right side view;

FIG. 5: the utility model discloses a load table structure sketch map of a stabilizer heavy center adjusting mechanism;

FIG. 6: stabilizer heavy center adjustment mechanism's load platform part's schematic structure.

FIG. 7 is a structural view of a 7-shaped handle of the present invention;

FIG. 8 is a 7-shaped structure view of the handle of the present invention, wherein the handle end has a movable joint;

FIG. 9 is a 7-shaped handle structure view of the support frame connected to the end of the handle of the present invention

FIG. 10 is a 7-shaped handle structure view of another handle end connection support frame of the present invention

Fig. 11 is a 7-shaped structure view of the handle end portion of the present invention connected to the extendable handle portion with a variable angle.

FIG. 12 is a view showing various states of the stabilizer handle of the present invention

In the figure: 1-a motor; 101-a pitch motor; 102-a traverse motor; 103-heading motor; 1031-guide groove; 2-a linker arm; 21-a first connecting arm; 22-a second connecting arm; 4-camera connecting arm; 5-a loading table; 51-a clamping block; 511-groove; 512 fastening screws; 52-anti-drop screw; 6-a substrate; 61-a clamping block; 62-a clamping block; 7-a quick-mounting plate; 8-a support frame; 31-a first handle; 32-a second handle; 312 — pan-tilt interface; 321-a second active interface; 322-a battery compartment; 311-first active interface.

Detailed Description

In order to explain the technical content, the achieved objects and the effects of the present invention in detail, the following description is made in conjunction with the embodiments and the accompanying drawings.

Embodiment mode 1

The embodiment provides a handheld stabilizer convenient for balance adjustment, as shown in fig. 1, 2 and 3, the stabilizer comprises three motors 1, namely a pitching motor 101, a rolling motor 102 and a heading motor 103, wherein the pitching motor 101 is connected with the rolling motor 102 through a second connecting arm 22, the rolling motor 102 is connected with the heading motor 103 through a first connecting arm 21, the pitching motor 101 is connected with a camera connecting arm 4, the camera connecting arm 4 is connected with a load table 5 in a sliding manner, the width of a guide groove of the load table 5 is adjusted through a clamping block 51 and a screw 512, the width is used for sliding or locking the load table 5 relative to the camera connecting arm 4, and the sliding is used for adjusting the gravity center in the Z direction; the substrate 6 is connected with the load platform 5 in a sliding manner, the width of a guide groove of the substrate 6 is adjusted by the substrate 6 through a clamping block and a screw 61 and is used for sliding or locking the substrate 6 relative to the load platform 5, and the substrate 6 can slide along the X direction and is used for adjusting the gravity center of the X direction; the base plate 6 is connected with a quick-mounting plate 7 in a sliding mode, the base plate 6 adjusts the width of a guide groove of the base plate 6 through a clamping block and a screw 62 and is used for sliding or locking the quick-mounting plate 7 relative to the base plate 6, and the quick-mounting plate 7 can slide along the Y direction and is used for adjusting the gravity center of the Y direction; wherein the X, Y, Z direction is a shooting device erected on the quick-mounting plates 7 which are vertical to each other, and the Z-direction adjusting mechanism comprises a camera connecting arm 4 and a loading platform 5 which is connected with the camera connecting arm 4 in a sliding manner; the X-direction adjusting mechanism comprises a load bearing platform 5 and a substrate 6 which is connected with the load bearing platform 5 in a sliding way; the Y-direction adjusting mechanism comprises a base plate 6 and a quick mounting plate 7 connected with the base plate 6 in a sliding manner; the X-direction adjusting mechanism is used for adjusting the balance of the roll motor, and the Y-direction adjusting mechanism and the Z-direction adjusting mechanism are used for adjusting the balance of the pitching motor. In the embodiment, the gravity center adjusting structures in three directions are arranged on the load platform, so that the structure that the gravity center adjusting mechanism on the stabilizer needs to be arranged on each motor in the prior art is replaced, the adjustment by a user is facilitated, the adjustment only needs to be carried out on one structure of the load plate, and the user experience is improved; meanwhile, the adjusting mechanism of the motor shell is omitted, and the two ends of the connecting arm 21 of the motor and the two ends of the connecting arm 22 of the motor in the embodiment are flush with the shell with the adjusting mechanism removed, so that the motor becomes thinner and the stabilizer product is more compact.

The above embodiments exemplarily show that the clamping structure of the camera connecting arm 4 and the load stage 5, the load stage 5 and the substrate 6, and the substrate 6 and the quick-mounting plate 7 is realized by the clamping block and the screw, according to other embodiments of the present invention, other locking structures may be substituted, for example, an eccentric cam type clamping rod structure, etc., one end of the eccentric cam type clamping rod passes through the clamping block and the other end has a wrench, and is located outside the clamping block, when the wrench is loosened, the clamping structure is used for sliding the corresponding component, and when the wrench is tightened, the clamping structure is used for locking the corresponding component; the locking can also be carried out only by screws, one end of each screw penetrates through the load platform 5, the other end of each screw is exposed out of the load platform 5, the screwing screws are used for locking the load plate 5 and the camera connecting arm 4, and the unscrewing screws are used for sliding the load plate 5 and the camera connecting arm 4; the clamping structure of the load table 5 and the substrate 6, and the substrate 6 and the fast-mounting board 7 are the same.

The above embodiments exemplarily show the sliding structures of the camera connecting arm 4 and the load stage 5, the load stage 5 and the substrate 6, and the substrate 6 and the quick-mounting plate 7, and according to other embodiments of the present invention, other sliding structures may be substituted, for example, a sliding rail and a guiding groove structure respectively disposed on the camera connecting arm 4 and the load 5, or a saw tooth and a gear respectively disposed on the camera connecting arm 4 and the load 5, or a mating thread and a screw respectively disposed on the camera connecting arm 4 and the load 5, etc.; when the structure of the sliding rail and the guide groove is adopted, the clamping structure can be adopted; when the structure of the saw teeth and the gear is adopted, the corresponding parts can be slid or locked by adopting the loosening and locking gear; the sliding structure of the load table 6 and the substrate 6, and the substrate 6 and the quick-mounting plate 7 are the same.

Embodiment mode 2

In another embodiment, as shown in fig. 4, on the basis of embodiment 1, the heading motor includes a guide slot 1031 engaged with the first connecting arm 21 connected to the heading motor, and the first connecting arm 21 connected to the heading motor 103 and the roll motor 102 is slidably connected to the guide slot 1031 and locked by a screw; after the gravity centers of the roll motor 102 and the pitch motor 101 are adjusted, the balance of the heading motor 103 of the stabilizer is adjusted, and finally the leveling step of the stabilizer is completed. Leveling parts in this embodiment are evenly distributed in the area of the load bearing platform 5, so that the adjustment by a user is facilitated, the user experience is improved, the thickness of the motor is reduced, and the motor is convenient to store.

The locking structure of the guide groove 1031 and the first connecting arm 21 is exemplarily shown in the above embodiments, and according to other embodiments of the present invention, other locking structures may be substituted, for example, an eccentric cam type clamping rod structure, etc., and the structure that one end of the eccentric cam type clamping rod passes through the guide groove 1031 and the other end has a wrench is located outside the guide groove 1031, and is used for sliding the first connecting arm 21 when the wrench is loosened and for locking the first connecting arm 21 when the wrench is tightened.

Embodiment 3

In another embodiment, as shown in fig. 5 and 6, on the basis of embodiment 1, the load table is provided with an anti-falling screw 52, a clamping block 51 for clamping the camera connecting arm 4 is provided with an arc-shaped groove 511 matched with the anti-falling screw 52, and the clamping block 51 clamps the camera connecting arm 4 through a fastening screw 512; the anti-drop screw 52 is positioned in the groove 511 and used for limiting the distance between the clamping block 51 and the guide groove formed by the loading table 5 to be not more than the width of the camera connecting arm 4; in the use process, when the fastening screw 512 falls off, the anti-falling screw 52 positioned on the load table 5 is also always positioned in the groove 511, and the screw used for fixing the shell of the load table 5 is also used for preventing the clamping block from falling off, namely transversely falling off, so that two functions of one component are realized; the structure of the present embodiment can prevent the clamp block 51 from falling off without adding an external structure, and can effectively prevent the load table 5 from colliding with the stabilizer link arm.

The above embodiment exemplarily shows the anti-falling screw 52 and the groove 511 structure matched with the anti-falling screw, according to other embodiments of the present invention, other matched structures may be used instead, for example, a structure matched with a hole located in the clamping block 51 and a pin arranged on the bottom end of the load platform 5, a structure matched with a groove located in the clamping block 51 and a pin arranged on the bottom end of the load platform 5, a structure matched with a hole located in the clamping block 51 and the like, and the above structures achieve the same effect and function, and when the fastening screw 512 falls off, the anti-falling screw 52 located in the load platform 5 is also always located in the groove 511, so as to prevent the clamping block 51 from falling off.

Embodiment 3

In another embodiment, as shown in fig. 5 and 6, in embodiment 1, the anti-drop screw 52 is circular, the groove 511 is arc-shaped, and after the anti-drop screw 52 is installed on the bottom plate of the loading platform 5, the axis of the anti-drop screw 52 is located in the arc-shaped groove 511, so that the groove 511 can displace with the radial direction of the anti-drop screw 52; the structure in which the retaining screw 52 is engaged with the groove 511 in the present embodiment prevents the clamp block 51 from slipping off from the camera connecting arm 4 without hindering the slide.

While the above embodiment shows the relative position of the groove 511 and the retaining screw 52 by way of example, other relative positions may be used instead according to other embodiments of the present invention, for example, the outer edge of the screw of the retaining screw 52 is located inside the groove 511, the whole screw of the retaining screw 52 is located inside the groove 511, etc.; the above structure can realize the radial displacement of the slot 511 and the retaining screw 52.

The above embodiment exemplarily shows the structure that the slot 511 can be displaced with the radial direction of the anti-slip screw 52, according to other embodiments of the present invention, a matching structure can be substituted, for example, the slot 511 is

The anti-drop screw 52 is wholly positioned in the groove 511 or the groove 511 is

The outer edge of the screw rod of the anti-slip screw 52 is located in the groove 511 or the groove 511 is

Character font structure andthe axial line of the anti-slip screw 52 is positioned in the groove 511, or the anti-slip screw 511 and the hole are matched, the anti-slip screw 52 is positioned in the hole, or the round pin and the arc-shaped groove 511 are matched, the axis line or the edge of the axis line is or is wholly positioned in the arc-shaped groove 511, or the polygonal outline of the axis line or the edge of the axis line is or is wholly positioned in the inner side of the arc-shaped groove 511.

Embodiment 4

In another embodiment, as shown in fig. 6, in embodiment 1, a baffle plate 41 is disposed at the bottom end of the camera connecting arm 4, a protrusion matched with the baffle plate 51 is disposed at the end of the load table 5, and the baffle plate 11 and the protrusion form a longitudinal position-limiting structure of the load table 5, so as to prevent the load table 5 from falling off longitudinally; the longitudinal limiting structure of the present embodiment can be used in combination with the lateral anti-falling structure of the load table 5 of the pin or anti-falling screw 52 and the hole or slot 511 in the above embodiments, and can improve the reliability and safety of the camera connecting arm 4 in the adjusting process.

The above-mentioned embodiments exemplarily show the limiting structures disposed on the camera connecting arm 4 and the loading platform 5, and according to other embodiments of the present invention, other limiting structures may be substituted, for example, a baffle disposed on the loading platform 5 and a protrusion disposed on the camera connecting arm 4, or a snap structure disposed on the loading platform 5 and the camera connecting arm 4, respectively.

The utility model provides a handheld stabilizer convenient to adjust balance, through adopting the three direction leveling mechanism in load board 5 region, replaced prior art, the structure that the focus adjustment mechanism need set up on every motor respectively on the stabilizer, convenient user adjusts, and only need to adjust on a structure of load board, has improved user experience; meanwhile, an adjusting mechanism of the motor shell is omitted, and a motor connecting arm in the scheme is flush with the shell with the adjusting mechanism removed, so that the motor is thinned, and a stabilizer product is more compact; by adopting the structure that the screw or the pin is matched with the groove or the hole, even when the fastening screw falls off 512, the screw or the pin positioned on the load platform 5 is always positioned in the groove or the hole, so that the clamping block 51 can be prevented from falling off, namely the load platform 5 is prevented from transversely falling off; the groove or the hole can be displaced along the radial direction of the screw or the pin, so that the structure of the screw or the pin matched with the groove or the hole can prevent the clamping block 51 from falling off while the sliding of the load bearing platform 5 is not hindered; the clamp block 51 can be prevented from falling off, an external structure is not added, and the collision between the load table 5 and the stabilizer connecting arm can be effectively prevented.

Embodiment 6

In addition to the above embodiment 1, the handle includes the first handle 31 and the second handle 32, one end of the first handle 1 is rigidly connected to one end of the second handle 2, and a movable joint is provided on an end surface of the other end of the first handle 31 or/and the second handle 32. Compared with the existing straight handle type stabilizer handle, the embodiment has the advantages that the two connecting arms are mutually crossed, so that the holding mode of the stabilizer is not limited to a vertical holding mode, and a horizontal holding mode can be selected. The user can have two kinds of application methods and can select, user experience can be improved, and the fatigue feeling of the user in a single holding mode for holding for a long time is reduced.

Embodiment 7

In embodiment 6, as shown in fig. 5, a movable joint 321 is provided on the end surface of the other end of the second handle 32. For attachment to the support frame 8.

Embodiment 8

On the basis of embodiment 6, as shown in fig. 3, a pan/tilt head interface 312 is disposed at the end of the connection between the first handle 31 and the second handle 32, and the first handle 31 is used for holding and manipulating. The user can conveniently install the cradle head, the handle is conveniently held, and control operation is carried out on the control key on the side face of the handle.

Embodiment 9

On the basis of embodiment 6, as shown in fig. 3, the second handle 32 is provided with a battery compartment 322. The battery clamping device is used for clamping a battery required by the handheld stabilizer.

Embodiment 10

On the basis of embodiment 6, as shown in fig. 2, the included angle between the first handle 31 and the second handle 32 is exemplarily shown to be 90 degrees, according to other embodiments of the present invention, the included angle may be installed at other angles instead of 90 degrees, for example, between 60 degrees and 120 degrees, which may also achieve the purpose of the present invention, and facilitate users to adjust the center of gravity when switching the holding manner.

Embodiment 11

In addition to embodiment 6, as shown in fig. 7, the end face of the movable interface 321 of the second handle 32 forms an angle of 0 to 90 degrees with the extending direction of the second handle 32 in the axial direction, and the user can conveniently operate the device after the movable interface device expands the device.

Embodiment 12

On the basis of the embodiment 6, as shown in fig. 6, the first movable interface 311 is movably connected with the supporting frame 8. The user can place the cradle head on the support frame 8 with the handle.

Embodiment 13

On the basis of embodiment 6, as shown in fig. 4 to 6, the movable connection mode can be selected from one of bolt connection, buckle connection and magnetic connection, and the purpose of the utility model is to enable the extension part to be movably connected on the handle.

Although the invention has been described in detail and with reference to specific embodiments thereof, it will be apparent to one skilled in the art that modifications and improvements can be made thereto. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides a handheld stabilizer convenient to adjust balance, includes cloud platform and handle, its characterized in that, including the stabilizer focus adjustment mechanism who sets up on the load platform (5) of cloud platform.

2. A hand-held stabilizer facilitating adjustment of the balance according to claim 1, characterised in that the stabilizer re-centring mechanism comprises a camera connecting arm (4) fixedly connected to the housing of the pitch motor (101), a base plate (6), a snap plate (7);

the camera connecting arm (4) and the load platform (5) which is connected with the camera connecting arm (4) in a sliding manner are used for adjusting in the Z direction; the loading platform (5) and the substrate (6) which is connected with the loading platform (5) in a sliding way are adjusted in the X direction; the base plate (6) and a quick-mounting plate (7) which is connected with the base plate (6) in a sliding way are used for carrying out Y-direction adjustment; the X direction, the Y direction and the Z direction are mutually vertical.

3. A hand-held stabilizer facilitating the adjustment of the balance according to claim 2, characterised in that the camera connecting arm (4) is fixed in the guide groove of the load table (5) by means of a clamping block.

4. A hand-held stabilizer facilitating the adjustment of the balance according to claim 2, characterised in that the load carrier (5) is fixed in a guide groove of the base plate (6) by means of a clamping block.

5. A hand-held stabilizer facilitating the adjustment of the balance according to claim 2, characterised in that the snap-in plate (7) is fixed in the guide groove of the base plate (6) by means of clamping blocks.

6. A hand-held stabilizer facilitating the adjustment of the balance according to claim 2, characterised in that the heading motor housing is provided with a guide groove for cooperation with the first connection arm (21) to which the heading motor is connected.

7. A hand-held stabilizer facilitating the adjustment of the balance according to claim 6, characterised in that the first connecting arm (21) is fixed in a guide groove of the heading motor housing by means of a clamping screw.

8. A hand-held stabilizer facilitating the adjustment of the balance according to any one of claims 1 to 3, characterised in that the load-bearing table (5) is provided with anti-drop screws or pins; the clamping block for clamping the camera connecting arm (4) is provided with a groove or a hole matched with the anti-drop screw or pin.

9. A hand-held stabiliser as claimed in claim 8 in which the slot or hole is displaceable radially of the anti-back screw or pin.

10. The handheld stabilizer convenient for adjusting balance of claim 9, wherein the bottom end of the camera connecting arm (4) is provided with a limiting structure matched with the load bearing platform (5).

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