CN211783024U - Support is used in shooting of convenient storage - Google Patents

Abstract

The utility model relates to a support is used in shooting of conveniently accomodating, include: the first supporting rod assembly comprises a first supporting rod and a second supporting rod, and the upper end of the first supporting rod is rotatably connected with the upper end of the second supporting rod; the second support rod assembly comprises a third support rod and a fourth support rod, the upper end of the third support rod and the upper end of the fourth support rod are mutually crossed and rotatably connected, the lower end of the third support rod is rotatably connected with the lower end of the first support rod, and the lower end of the fourth support rod is rotatably connected with the lower end of the second support rod; the upper end part of the first supporting rod is provided with a first connecting section, a ball head body is formed on the first connecting section, the upper end part of the second supporting rod is provided with a second connecting section, and a ball head sleeve which is sleeved on the outer side of the ball head body and forms running fit with the ball head body is arranged on the second connecting section. Because the ball head body is of the arc surface structure, the rotating process of the ball head body relative to the ball head sleeve is more stable and flexible, and the rotating operation between the two supporting rods is more convenient.

Description

Support is used in shooting of convenient storage

Technical Field

The utility model relates to an auxiliary device technical field is used in the shooting, especially relates to a support is used in shooting of conveniently accomodating.

Background

The support for shooting is an auxiliary supporting device commonly used in shooting training. If the application number is:

CN201821779384.1 (No. CN209069097U) discloses a shooting support, which comprises a first support, a second support and a connecting belt for connecting the first support and the second support, wherein the first support comprises a first supporting rod and a second supporting rod, the upper parts of the first supporting rod and the second supporting rod are connected through a shaft, and the first support is in an X shape; the second support includes third bracing piece, fourth bracing piece and sets up the portion of placing at third bracing piece and fourth bracing piece top, and the connector is passed through to the bottom of first bracing piece and third bracing piece and is connected, and the connector is passed through to the bottom of second bracing piece and fourth bracing piece and connects. In use, the rifle is supported by the first bracket and the second bracket, namely, the four support rods can be opened relatively and supported on the ground, and the front part and the rear part of the rifle can be respectively placed on the X-shaped opening part of the first bracket and the concave part of the placing part of the second bracket. When the foldable umbrella needs to be stored, the four supporting rods can be folded relatively, so that the foldable umbrella is greatly convenient to store.

However, the shooting support in the above patent still has certain deficiencies when in actual use, firstly, the upper parts of the first support rod and the second support rod of the shooting support are rotatably connected through a pin shaft, and after the shooting support is used for a period of time, fasteners at two ends of the pin shaft are easy to be loosened by the relative rotation of the first support rod and the second support rod, so that the first support rod and the second support rod can shake, and the stability of the whole shooting support is also poor; secondly, four bracing pieces of this support are formed by the flexible cooperation of the multisection body of rod, include the great first body of rod of diameter and the less second body of rod of diameter promptly, when the length of corresponding bracing piece is adjusted to needs, the second body of rod of pulling minor diameter slides along the first body of rod of major diameter, arc arch on the second body of rod stretches out the card under the effect of spring and establishes in the hole of the first body of rod, realize relocking between them, it is harder when this kind of flexible regulation structure is adjusted, need to exert oneself the pulling second body of rod and just can make the arc arch break away from the hole of the first body of rod, it is very inconvenient.

Therefore, further improvements are needed in the prior art shooting stands.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the first technical problem that will solve is to prior art's current situation, provides one kind and opens and converts into the steady difficult not hard up convenient shooting of accomodating of process and uses the support.

The utility model discloses the technical problem that will solve the second is to prior art's current situation, provides a convenient, laborsaving support for shooting of altitude mixture control.

The utility model provides a technical scheme that first technical problem adopted does: a stand for shooting of conveniently accomodating includes:

the first supporting rod assembly comprises a first supporting rod and a second supporting rod, and the upper end of the first supporting rod is directly or indirectly connected with the upper end of the second supporting rod in a rotating manner;

the second support rod assembly comprises a third support rod and a fourth support rod, the upper end of the third support rod and the upper end of the fourth support rod are mutually crossed and rotatably connected, the lower end of the third support rod is rotatably connected with the lower end of the first support rod, and the lower end of the fourth support rod is rotatably connected with the lower end of the second support rod, so that the second support rod assembly can be opened and folded relative to the first support rod assembly;

the upper end part of the first supporting rod is provided with a first connecting section, a ball head body is formed on the first connecting section, the upper end part of the second supporting rod is provided with a second connecting section, and a ball head sleeve which is sleeved on the outer side of the ball head body and is in running fit with the ball head body is arranged on the second connecting section.

In order to enable the first connecting section of the third supporting rod and the second connecting section of the fourth supporting rod to flexibly rotate within a proper angle range, a first movable opening for the first connecting section to pass through is formed in the side wall of the ball head sleeve, and the first movable opening is constructed to enable the first connecting section to rotate relative to the second connecting section in a plane formed by the third supporting rod and the fourth supporting rod by taking the ball head body as a center.

In order to make the rotation between the ball head body and the ball head sleeve more stable, a concave part matched with the ball head body is arranged on the inner wall surface of the ball head sleeve corresponding to the ball head body of the first connecting section.

In order to facilitate the assembly of the ball head body into the ball head sleeve, the ball head sleeve comprises a first half sleeve body and a second half sleeve body which are oppositely buckled, a first pit is formed in the first half sleeve body, a second pit is formed in the second half sleeve body, and the first pit and the second pit are oppositely arranged to form the concave portion. During assembly, the first half sleeve body and the second half sleeve body are directly clamped on two sides of the ball head body and then connected.

In order to enable the first supporting rod and the third supporting rod to be directly connected in a stable rotating mode, a first ball head is arranged at the lower end of one of the first supporting rod and the third supporting rod, and a first ball socket matched with the first ball head is arranged at the lower end of the other one of the first supporting rod and the third supporting rod.

In order to enable the second support rod and the fourth support rod to be connected in a stable rotating mode, a second ball head is arranged at the lower end of one of the second support rod and the fourth support rod, and a second ball socket matched with the second ball head is arranged at the lower end of the other one of the second support rod and the fourth support rod.

The connected mode between first bracing piece and the second bracing piece can directly adopt cross rotation to connect, promptly, is similar with the connected mode of third bracing piece and fourth bracing piece, also can connect through other parts and make both form normal running fit, as a preferred embodiment, first bracing piece still includes first supporting head, the bottom of first supporting head has two third ball sockets, the upper end of first bracing piece and the upper end of second bracing piece all has the third bulb, and two third bulbs correspond the adaptation with two third ball sockets respectively. The rotation process between the first supporting rod, the second supporting rod and the first supporting head is more stable by adopting the rotation matching mode of the ball head and the ball socket.

In order to adjust the height of the support to satisfy the use requirements of users with different heights, the first supporting rod, the second supporting rod, the third supporting rod and the fourth supporting rod are telescopic rods with adjustable lengths.

After the length adjustment of the telescopic rod is completed, in order to enable the telescopic rod to be firmly kept at a corresponding length position, the telescopic rod comprises a sleeve, a movable rod axially and slidably connected in the sleeve and a locking assembly connected between a port of the sleeve and the movable rod and used for locking the sleeve and the movable rod.

The utility model provides a technical scheme that second technical problem adopted does: be equipped with a plurality of interval arrangements's ring groove along the axial on the movable rod, the locking Assembly includes:

the first lock sleeve is connected to the port of the sleeve, a through hole is formed in the side wall of the first lock sleeve, and a limiting convex part is further arranged on the outer wall surface of the first lock sleeve;

the inner wall of the movable sleeve is provided with an annular flange which is sleeved on the outer side of the first lock sleeve in an axial sliding manner and can be positioned at a locking position enabling the annular flange to shift to the outer side of the through hole and an unlocking position enabling the annular flange to be far away from the outer side of the through hole;

the ball is arranged between the first lock sleeve and the movable sleeve and embedded in the through hole of the first lock sleeve, when the annular flange of the movable sleeve is shifted to the locking position, the ball is pressed by the annular flange, moves inwards along the radial direction, exposes the through hole and is clamped into the annular clamping groove of the movable rod;

and the spring is arranged between the limiting convex part of the first lock sleeve and the annular flange of the movable sleeve, so that the annular flange of the movable sleeve always has the trend of moving the locking position.

Compared with the prior art, the utility model has the advantages that: adopt the bulb body to cooperate and realize rotating between two bracing pieces of this support for shooting with the bulb cover and be connected, because the bulb body is the arc surface structure, its relative bulb cover's rotation process is more steady, nimble, therefore made things convenient for the rotation operation between two bracing pieces more to, when the assembly, be with the cooperation of the bulb body in the bulb cover, do not adopt corresponding round pin axle among the prior art, so long-time rotation also can not appear the problem of relative not hard up after using.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention (with a stand in a folded state);

fig. 2 is a schematic perspective view of a second strut assembly according to an embodiment of the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view of FIG. 2 at B;

fig. 5 is a schematic perspective view of an embodiment of the present invention (with the stand in an open state);

FIG. 6 is an exploded view of FIG. 3;

fig. 7 is a schematic view of a three-dimensional structure of the second support head according to the embodiment of the present invention after being opened by a certain angle;

FIG. 8 is a schematic view of the structure of FIG. 7 with the first half of the jacket body omitted;

fig. 9 is a schematic perspective view of an upper end portion of a fourth support rod according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of a first half-sleeve according to an embodiment of the present invention;

fig. 11 is a schematic perspective view of a second half sleeve body according to an embodiment of the present invention;

fig. 12 is a schematic structural view illustrating an assembled state of the first supporting head and the first and second supporting rods according to the embodiment of the present invention;

FIG. 13 is an exploded view of FIG. 12;

fig. 14 is a schematic perspective view of a connecting head assembly according to an embodiment of the present invention;

FIG. 15 is a partial exploded view of FIG. 14;

FIG. 16 is an exploded view of FIG. 14;

fig. 17 is a longitudinal cross-sectional view of a connector assembly according to an embodiment of the present invention (first ball head not shown);

fig. 18 is a longitudinal cross-sectional view (in a locked state) of a locking assembly of an embodiment of the present invention;

figure 19 is a longitudinal cross-sectional view (in an unlocked state) of a locking assembly of an embodiment of the present invention;

fig. 20 is an exploded view of fig. 18.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Referring to fig. 1 to 20, a stand for shooting that is easy to store includes a first support rod 11, a second support rod 12, a third support rod 21, a fourth support rod 22, a first support head 13, a second support head 23, and a locking assembly 90.

Referring to fig. 5 and 12, the top of the first supporting head 13 has a first placing portion 130 in a shape of a recess for placing a firearm or the like. The bottom of the first support head 13 has two third sockets 72, see fig. 13 in detail. Correspondingly, the upper end of the first support rod 11 and the upper end of the second support rod 12 both have third ball heads 71, and the third ball heads 71 of the two support rods are respectively and correspondingly arranged in the two third ball sockets 72 of the first support head 13. The two third ball sockets 72 each have a second movable opening 133 for defining the rotation angle of the corresponding third ball head 71, and the second movable opening 133 is configured to enable the relative rotation of the first support rod 11 and the second support rod 12 in the plane formed by the axes thereof, as shown in detail in fig. 13.

Referring to fig. 12 and 13, the first supporting head 13 includes a housing formed by a first half shell 131 and a second half shell 132. Correspondingly, the third socket 72 of the first support head 13 is formed by engaging the first half-shell 131 and the second half-shell 132. The design of the first support head 13 as a snap-fit formation of two half-shells facilitates the fitting of the third ball head 71 into the corresponding third socket 72.

Referring to fig. 12, the upper end of the first support rod 11 and the upper end of the second support rod 12 are rotatably connected to the two third ball sockets 72 of the first support head 13, so that the first support rod 11, the second support rod 12 and the first support head 13 are correspondingly connected to form the first support rod assembly 10 of the shooting cradle of the present embodiment.

Referring to fig. 3 and 6, the upper end of the third support bar 21 and the upper end of the fourth support bar 22 are crossed and rotatably connected with each other, so that the second support bar assembly 20 of the stand for shooting of the present embodiment is formed as a whole after the first support bar 11 and the second support bar 12 are correspondingly connected. The upper end of the third support bar 21 and the upper end of the fourth support bar 22 are crossed and rotatably matched with each other to form a second support head 23 of the shooting support of the embodiment. The nip formed by the crossing of the ends of the two support rods forms a second placing part 230 of the second support head 23, and when the nip is opened, a firearm and the like can be placed. For example, the front and rear of the rifle may be placed on the first placing portion 130 of the first supporting head 13 and the second placing portion 230 of the second supporting head 23, respectively, see fig. 7 and 8.

The lower end of the third support rod 21 is pivotally connected to the lower end of the first support rod 11, and the lower end of the fourth support rod 22 is pivotally connected to the lower end of the second support rod 12, so that the second support rod assembly 20 can be opened and closed relative to the first support rod assembly 10, as shown in fig. 1 and 4.

Referring to fig. 6-11, the second support head 23 includes a first arm and a second arm. The first arm is the first connecting section 31 located at the upper end portion of the third support bar 21, wherein the first arm and the third support bar 21 may be designed as an integral body or as a separate body which can be detachably connected. The second arm is the second connecting section 41 located at the upper end portion of the fourth supporting rod 22, and similarly, the second arm and the fourth supporting rod 22 may be designed as an integral body or as a separate body which can be detachably connected. The first support arm and the second support arm are in cross rotating connection and are in an X shape. The end of the first support arm and the end of the second support arm are both sleeved with leather sleeves 47 with anti-skid threads.

Referring to fig. 6, the first connecting section 31 is formed with a ball head 32, the second connecting section 41 is formed with a ball head sleeve 42 which is sleeved on the outer side of the ball head 32, and the ball head 32 and the ball head sleeve 42 form a rotating fit. Specifically, the ball sleeve 42 includes a first half sleeve 45 and a second half sleeve 46 that are engaged with each other. After the first half sleeve body 45 and the second half sleeve body 46 are fastened, a first movable opening 43 for the first connecting section 31 to pass through is formed on each of two sides of the first half sleeve body 45, and the first movable opening 43 is configured to enable the ball head body 32 of the first connecting section 31 to rotate relative to the second connecting section 41 in a plane formed by the third support rod 21 and the fourth support rod 22. More specifically, the first half sleeve body 45 has a first concave pit 450, the second half sleeve body 46 has a second concave pit 460, and the first concave pit 450 and the second concave pit 460 are oppositely arranged to form a concave portion 44 adapted to the circular arc surface of the ball head body 32, as shown in fig. 10 and 11.

In order to facilitate the first half sleeve 45 and the second half sleeve 46 to be accurately buckled, the wall surface of the first half sleeve 45 is provided with a positioning groove 451, and the wall surface of the second half sleeve 46 is provided with a positioning rib 461 matched with the positioning groove.

Referring to fig. 14 to 17, the lower end of the first support bar 11 is rotatably connected to the lower end of the third support bar 21 by a first joint assembly 50. The first joint assembly 50 includes a first base 52 and a first ball head 51, wherein the first base 52 is connected to the first support rod 11, and the first ball head 51 is connected to the third support rod 21. The first base 52 is an L-shaped block body, a first ball socket 520 is disposed in the L-shaped block body, and the first ball 51 is rotatably disposed in the first ball socket 520. Specifically, the angle position of the L-shaped block body has a third movable opening 53, and the third movable opening 53 is configured to enable the first support rod 11 and the third support rod 21 to perform relative rotation in a plane formed by the two axes. The first base 52 is formed by buckling a first seat 521 and a second seat 522, so as to facilitate the first ball head 51 to be assembled in the first ball socket 520 of the first base 52. The first connector assembly 50 further comprises a first protective sleeve 501 wrapped around the first housing 521.

Referring to fig. 14 to 17, the lower end of the second support bar 12 is rotatably connected to the lower end of the fourth support bar 22 by a second joint assembly 60. The second joint assembly 60 has the same structure as the first joint assembly 50, and the second joint assembly 60 includes a second base 62 and a second ball 61, wherein the second base 62 is connected to the second support rod 12, and the second ball 61 is connected to the fourth support rod 22. The second base 62 is also an L-shaped block, a second ball socket 620 is arranged in the L-shaped block, and the second ball 61 is rotatably arranged in the second ball socket 620. Specifically, the angle position of the L-shaped block also has a fourth movable opening 63, and the fourth movable opening 63 is configured to enable the second support rod 12 and the fourth support rod 22 to rotate relatively in the plane formed by the two axes. Similarly, the second base 62 is also formed by the third seat 621 and the fourth seat 622 through a snap fit, so as to facilitate the second ball 61 to be assembled in the second ball socket 620 of the second base 62. The second connector assembly 60 includes a second protective sleeve 601 wrapped around the second housing 522.

The rotating connection structure of the ball head and the ball socket can enable the first support rod 11 and the third support rod 21 and the second support rod 12 and the fourth support rod 22 to be in stable rotating connection. This facilitates the flexible opening and closing of the first and second strut assemblies 10 and 20.

Referring to fig. 5, the first support bar 11, the second support bar 12, the third support bar 21 and the fourth support bar 22 in the present embodiment have the same structure, and are all telescopic bars with adjustable lengths. Each telescoping rod includes a connecting tube 82, a movable rod 81, a cannula 80, and a locking assembly 90. The lower ends of the connecting pipes 82 are fixedly connected to the upper ends of the movable rods 81, and the upper ends of the connecting pipes 82 are connected to the corresponding parts of the first and second supporting heads 13 and 23, respectively. The lower ends of the bushings 80 are connected to the corresponding components of the first and second connector assemblies 50 and 60, respectively. Each movable rod 81 is axially slidably connected in the sleeve 80, and the above-mentioned locking assembly 90 is provided between the port of the corresponding sleeve 80 and the movable rod 81, for locking the sleeve 80 and the movable rod 81.

Referring to fig. 18, the locking assembly 90 includes a first lock sleeve 91, a movable sleeve 92, a ball 93, a spring 94, and a circlip 95.

A first lock sleeve 91 is connected to the end opening of the sleeve 80 and has a through hole 910 cut in the radial direction in the side wall, and the movable rod 81 is also axially slidably inserted in this first lock sleeve 91. The movable sleeve 92 is axially slidably sleeved on the outer side of the first lock sleeve 91, an annular flange 921 is arranged on the inner wall of the movable sleeve 92, and a limit convex part 911 is further arranged on the outer wall surface of the first lock sleeve 91. The spring 94 is sleeved on the first lock sleeve 91 and is located in a spring accommodating cavity 940 formed between the inner wall of the movable sleeve 92 and the outer wall of the first lock sleeve 91. The two ends of the spring 94 respectively abut against the end surface of the limit protrusion 911 of the first lock sleeve 91 and the end surface of the annular flange 921 of the movable sleeve 92. In order to prevent the movable sleeve 92 from being separated upwards under the action of the spring 94, a snap spring 95 is further embedded in the outer wall of the first lock sleeve 91 and is used for abutting against the movable sleeve 92 upwards.

The ball 93 is disposed between the first lock sleeve 91 and the movable sleeve 92 and is inserted into the through hole 910 of the first lock sleeve 91. The first lock sleeve 91 in this embodiment has four through holes 910, which are uniformly spaced along the circumferential direction of the first lock sleeve 91, and correspondingly, the balls 93 have four through holes 910, which are correspondingly disposed in the four through holes.

Referring to fig. 18, the movable rod 81 of the present embodiment is provided with a plurality of annular locking grooves 810 arranged at intervals along the axial direction.

Referring to fig. 18 and 19, the movable sleeve 92 can be in the locked position and the unlocked position when it slides up and down relative to the first lock sleeve 91. In a natural state, that is, in a locking position, the annular flange 921 of the movable sleeve 92 is located outside the through hole 910, and radially presses the ball 93 disposed in the through hole 910, and under the pressing action of the annular flange 921 of the movable sleeve 92, the ball 93 can move radially inward to expose the inner edge of the through hole 910 to be caught in the annular catching groove 810 of the movable rod 81, so that the sleeve 80 is locked with the movable rod 81. When the unlocking is needed, an operator can press down the movable sleeve 92 to enable the annular flange 921 of the movable sleeve 92 to be located at the unlocking position far away from the outer side of the through hole 910 of the first lock sleeve 91, so that the ball 93 can flexibly move outwards due to the fact that the radial extrusion effect of the annular flange 921 is avoided, and when the movable rod 81 is pulled axially, the ball 93 can be separated from the annular clamping groove 810 of the movable rod 81. In addition, the circular clamping groove 810 of the movable rod 81 has a notch structure with a narrow inner side and a wide outer side, so that when the movable rod 81 moves relative to the first lock sleeve 91, the ball 93 can be conveniently and smoothly released from the circular clamping groove 810.

Adopt the bulb body 32 to cooperate and realize rotating the connection with bulb cover 42 between two bracing pieces of support for the shooting of this embodiment, because the bulb body 32 is the arc surface structure, its rotation process relative to bulb cover 42 is more steady, nimble, therefore the rotation operation between two bracing pieces has made things convenient for more, and, when the assembly, be with the cooperation of the bulb body 32 in bulb cover 42, and do not adopt corresponding round pin axle among the prior art, so long-time rotation can not appear the problem of relative not hard up after using yet.

Claims (10)

1. A stand for shooting of conveniently accomodating includes:

the first supporting rod assembly (10) comprises a first supporting rod (11) and a second supporting rod (12), and the upper end of the first supporting rod (11) is directly or indirectly connected with the upper end of the second supporting rod (12) in a rotating mode;

the second supporting rod assembly (20) comprises a third supporting rod (21) and a fourth supporting rod (22), the upper end of the third supporting rod (21) and the upper end of the fourth supporting rod (22) are mutually crossed and rotatably connected, the lower end of the third supporting rod (21) is rotatably connected with the lower end of the first supporting rod (11), and the lower end of the fourth supporting rod (22) is rotatably connected with the lower end of the second supporting rod (12), so that the second supporting rod assembly (20) can be opened and folded relative to the first supporting rod assembly (10);

the method is characterized in that: the upper end of third bracing piece (21) is equipped with first linkage segment (31), is formed with ball head body (32) on first linkage segment (31), the upper end of fourth bracing piece (22) is equipped with second linkage segment (41), has the cover on second linkage segment (41) to establish the outside of ball head body (32) and with ball head body (32) form normal running fit's bulb cover (42).

2. The stand for shooting of claim 1, characterized in that: the side wall of the ball head sleeve (42) is provided with a first movable opening (43) for the first connecting section (31) to pass through, and the first movable opening (43) is configured to enable the first connecting section (31) to rotate relative to the second connecting section (41) in a plane formed by a third support rod (21) and a fourth support rod (22) by taking the ball head body (32) as a center.

3. The stand for shooting of claim 2 convenient to accomodate, characterized in that: the inner wall surface of the ball head sleeve (42) is provided with a concave part (44) matched with the ball head body (32) at a position corresponding to the ball head body (32) of the first connecting section (31).

4. The stand for shooting of claim 3 convenient to accomodate, characterized in that: the ball head cover (42) comprises a first half cover body (45) and a second half cover body (46) which are oppositely buckled, a first concave pit (450) is arranged on the first half cover body (45), a second concave pit (460) is arranged on the second half cover body (46), and the first concave pit (450) and the second concave pit (460) are oppositely arranged to form the concave part (44).

5. The stand for shooting of claim 1, characterized in that: one lower end of the first support rod (11) or the third support rod (21) is provided with a first ball head (51), and the lower end of the other support rod is provided with a first ball socket (52) matched with the first ball head (51).

6. The stand for shooting of claim 1, characterized in that: one lower end of the second support rod (12) or the fourth support rod (22) is provided with a second ball head (61), and the lower end of the other support rod is provided with a second ball socket (62) matched with the second ball head (61).

7. The stand for shooting of claim 1, characterized in that: the first supporting rod assembly (10) further comprises a first supporting head (13), two third ball sockets (72) are arranged at the bottom of the first supporting head (13), third ball heads (71) are arranged at the upper end of the first supporting rod (11) and the upper end of the second supporting rod (12), and the two third ball heads (71) are correspondingly matched with the two third ball sockets (72) respectively.

8. A stand for easy storage and shooting as claimed in any one of claims 1 to 7, wherein: the first supporting rod (11), the second supporting rod (12), the third supporting rod (21) and the fourth supporting rod (22) are telescopic rods with adjustable lengths.

9. The stand for shooting of claim 8 convenient to accomodate, characterized in that: the telescopic rod comprises a sleeve (80), a movable rod (81) axially and slidably connected in the sleeve (80) and a locking assembly (90) connected between the port of the sleeve (80) and the movable rod (81) and used for locking the sleeve (80) and the movable rod (81).

10. The stand for shooting of claim 9 convenient to accomodate, characterized in that: a plurality of annular clamping grooves (810) which are arranged at intervals are axially arranged on the movable rod (81), and the locking assembly (90) comprises:

the first lock sleeve (91) is connected to the port of the sleeve (80), a through hole (910) is formed in the side wall of the first lock sleeve, and a limiting convex part (911) is further arranged on the outer wall surface of the first lock sleeve (91);

the movable sleeve (92) is provided with an annular flange (921) on the inner wall, is sleeved on the outer side of the first lock sleeve (91) in an axial sliding manner, and can be in a locking position enabling the annular flange (921) to be displaced to the outer side corresponding to the through hole (910) and an unlocking position enabling the annular flange (921) to be far away from the outer side corresponding to the through hole (910);

the ball (93) is arranged between the first lock sleeve (91) and the movable sleeve (92) and is embedded in the through hole (910) of the first lock sleeve (91), when the annular flange (921) of the movable sleeve (92) is displaced to the locking position, the ball (93) is pressed by the annular flange (921) and moves inwards in the radial direction to expose the through hole (910) and is clamped into the annular clamping groove (810) of the movable rod (81);

and a spring (94) which is provided between the limit projection (911) of the first lock sleeve (91) and the annular flange (921) of the movable sleeve (92) and which constantly tends to move the annular flange (921) of the movable sleeve (92) toward the lock position.

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