A shooting aid
By incorporating multiple locking holes and an angled sliding block on the handheld component, the problem of fixed connector positions in existing shooting aids is solved, enabling flexible installation of connectors and diverse use of external devices, thereby improving the flexibility of use and shooting effect of the shooting aid.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WINNERS SUN PLASTIC & ELECTRONICS SHENZHEN
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-09
AI Technical Summary
When the connector of the existing shooting aid is connected to the handheld device, there is a lack of extra locking holes to allow the connector to be repositioned or to install external parts, resulting in insufficient flexibility in use.
The handheld component is provided with a first lock hole and a second lock hole, and the first lock body and the second lock body are respectively provided with an oblique slide groove and a slider. The unlock button drives the slider to slide the lock body, thereby achieving synchronous locking or unlocking, and allowing the connector to switch between different lock holes.
It enables flexible installation of connectors in different positions, supports diverse use of external devices, and enhances the flexibility and shooting effect of shooting assistance devices.
Smart Images

Figure CN224339810U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of shooting auxiliary equipment technology, and in particular to a shooting auxiliary device. Background Technology
[0002] With the widespread use of electronic devices such as mobile phones and cameras, shooting aids have emerged. Especially when taking photos or videos, shooting aids can help users take better and more convenient photos and videos.
[0003] Current shooting aids typically include a handheld component, a connector, and a mounting component. The connector connects both the handheld and mounting components, while the mounting component secures electronic devices such as mobile phones and cameras. In some existing shooting aids, the connector is connected to the mounting component, and the connector is detachably connected to the handheld component. To ensure a stable connection between the connector and the handheld component, a locking mechanism is usually implemented to lock and unlock them. However, when implementing this locking and unlocking mechanism, often only one locking hole is provided on the handheld component, without additional holes for repositioning the connector or for mounting other external components (such as fill lights or microphones). Utility Model Content
[0004] This utility model provides a shooting assistance device that can drive the first and second locking tongues in different positions to move synchronously, thereby achieving synchronous locking or unlocking.
[0005] This utility model discloses a shooting assistance device, comprising: a handheld component having a first lock hole and a second lock hole, the first lock hole and the second lock hole being respectively disposed on adjacent sides of the handheld component; a connecting component, one end of which is detachably mounted to the first lock hole and / or the second lock hole; a retaining component connected to the other end of the connecting component; a first lock body having a first latch, the first lock body being slidably disposed on the handheld component in a first direction to drive the first latch to slide in the first lock hole; and a second lock body having a second latch, the second lock body being slidably disposed on the handheld component in a second direction. The holding member drives the second lock tongue to slide in the second lock hole; one of the first lock body and the second lock body has an oblique sliding groove, and the other has a slider that cooperates with the oblique sliding groove; a reset member is disposed on the holding member, the reset member drives the first lock body to slide in the opposite direction of the first direction to reset the first lock body, and / or the reset member drives the second lock body to slide in the opposite direction of the second direction to reset the second lock body; an unlock button is connected to the first lock body and can drive the first lock body to slide in the first direction, or the unlock button is connected to the second lock body and can drive the second lock body to slide in the second direction.
[0006] Optionally, the first lock body has a notch, one end of the second lock body is installed in the notch, and one of the inclined slide and the slider is disposed in the notch, while the other is disposed in the second lock body.
[0007] Optionally, the slider is disposed in the notch groove, the oblique groove is disposed in the second lock body, the height of the slider is less than the depth of the notch groove, one end of the second lock body is installed in the notch groove, one end of the second lock body is located between the inner wall of the first lock body and the handheld part, and the height of the second lock body installed in the notch groove is less than the depth of the notch groove.
[0008] Optionally, the reset element is configured as a spring, with one end connected to the handheld component and the other end connected to the first lock body or the second lock body.
[0009] Optionally, the reset component includes a first magnetic component and a second magnetic component, the first magnetic component being disposed on the handheld component, and the second magnetic component being disposed on the first lock body or the second lock body, wherein the first magnetic component and the second magnetic component form a repulsive magnetic force.
[0010] Optionally, the opening direction of the first keyhole is perpendicular to the opening direction of the second keyhole.
[0011] Optionally, the first locking tongue is provided with a first guide slope and the second locking tongue is provided with a second guide slope.
[0012] Optionally, the handheld component includes a first housing and a second housing, the outer side of the first housing is configured as a curved surface for easy gripping by the user, and the first lock hole and the second lock hole are disposed in the second housing.
[0013] Optionally, the second housing is provided with a first mounting groove and a second mounting groove. The first lock hole is connected to the first mounting groove, and the second lock hole is connected to the second mounting groove. The first lock body is installed in the first mounting groove and can be slidably disposed in the first mounting groove in the first direction. The second lock body is installed in the second mounting groove, and one end of the second lock body extends into the first mounting groove and is sandwiched between the first lock body and the bottom of the first mounting groove.
[0014] Optionally, the retaining member is provided with a magnetic surface.
[0015] The beneficial effects of the shooting assistance device provided in this embodiment of the utility model are as follows: by setting a first lock hole and a second lock hole on adjacent sides of the handheld part, and by providing an oblique sliding groove on one of the first lock body and the second lock body, and a slider that cooperates with the oblique sliding groove on the other, when the unlocking button drives one of them to slide, it can drive the other to slide, thereby simultaneously controlling the unlocking and locking of the first lock hole and the second lock hole. On the one hand, the setting of the first lock hole and the second lock hole allows the connector or external component to be selectively installed in different positions to achieve different shooting assistance effects. On the other hand, the setting of the first lock hole and the second lock hole allows other external devices to be connected to the other lock hole when the connector of the shooting assistance device is installed in one of the lock holes. Attached Figure Description
[0016] The technical solution of this utility model will be further described in detail below with reference to the accompanying drawings and embodiments. In the accompanying drawings:
[0017] Figure 1 This is a schematic diagram of the handheld component of the shooting auxiliary device provided in this embodiment of the utility model;
[0018] Figure 2 This is a schematic diagram of the connecting piece of the shooting auxiliary device provided in this embodiment of the present invention installed in the second key hole;
[0019] Figure 3 This is a schematic diagram of the connecting piece of the shooting auxiliary device provided in this embodiment of the present invention installed in the first keyhole;
[0020] Figure 4This is a schematic diagram of the structure of the first housing and the second housing of the shooting auxiliary device provided in this embodiment of the utility model;
[0021] Figure 5 This is an assembly diagram of the first lock body and the second lock body provided in an embodiment of this utility model;
[0022] Figure 6 This is an exploded view of the first and second lock bodies provided in this embodiment of the utility model. Figure 1 ;
[0023] Figure 7 This is an exploded view of the first and second lock bodies provided in this embodiment of the utility model. Figure 2 ;
[0024] Figure 8 This is a schematic diagram of the first and second locking bodies and the second housing of the shooting auxiliary device provided in this embodiment of the utility model. Figure 1 ;
[0025] Figure 9 Schematic diagram of the first and second locking bodies and the second housing of the shooting auxiliary device provided in this embodiment of the utility model. Figure 2 .
[0026] The labels for the attached figures are as follows:
[0027] 10. Handheld component; 101. First housing; 102. Second housing; 103. Front view; 104. Upper side; 105. Left side; 1021. First mounting slot; 1022. Second mounting slot; 11. First lock hole; 12. Second lock hole;
[0028] 20. Connectors;
[0029] 30. Holding component; 31. Magnetic surface;
[0030] 40. First lock body; 41. First locking tongue; 411. First guide slope; 42. Slider; 43. Notch; 431. First groove wall; 432. Second groove wall;
[0031] 50. Second lock body; 51. Second lock tongue; 511. Second guide ramp; 52. Angled slide groove;
[0032] 60. Reset component; 61. Spring;
[0033] 70. Unlock button;
[0034] 80. Charging cable;
[0035] 90. Battery cells;
[0036] X, the first direction; Y, the second direction. Detailed Implementation
[0037] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The preferred embodiments of this utility model will now be described in detail with reference to the accompanying drawings.
[0038] like Figures 1 to 9 As shown, this utility model embodiment provides a shooting assistance device, including: a handheld component 10, which has a first locking hole 11 and a second locking hole 12, the first locking hole 11 and the second locking hole 12 being respectively disposed on adjacent sides of the handheld component 10; a connecting component 20, one end of which is detachably mounted to the first locking hole 11 and / or the second locking hole 12; a retaining component 30, which is connected to the other end of the connecting component 20; and a first lock body 40, which has a first locking tongue 41, the first lock body 40 being positioned in a first direction (e.g., ...). Figure 5 The first bolt 41 is slidably disposed on the handheld part 10 in the X direction to drive the first bolt 41 to slide in the first lock hole 11; the second lock body 50 is provided with the second bolt 51, and the second lock body 50 is slidably disposed in the second direction (e.g., in the X direction) to drive the first bolt 41 to slide in the first lock hole 11; the second lock body 50 is provided with the second bolt 51, Figure 5 The first lock body 40 (in the Y direction) is slidably disposed on the handheld part 10 to drive the second lock tongue 51 to slide in the second lock hole 12; one of the first lock body 40 and the second lock body 50 is provided with an oblique groove 52, and the other is provided with a slider 42 that cooperates with the oblique groove 52; a reset member 60 is disposed on the handheld part 10, and the reset member 60 drives the first lock body 40 to slide in the opposite direction of the first direction to reset the first lock body 40, and / or the reset member 60 drives the second lock body 50 to slide in the opposite direction of the second direction to reset the second lock body 50; unlocking Button 70, the unlock button 70 is connected to the first lock body 40 and can drive the first lock body 40 to slide in the first direction, or the unlock button 70 is connected to the second lock body 50 and can drive the second lock body 50 to slide in the second direction. When the unlock button 70 drives the first lock body 40 to slide in the first direction, the second lock body 50 can be driven to slide in the second direction through the cooperation of the oblique slide groove 52 and the slider 42; when the unlock button 70 drives the second lock body 50 to slide in the second direction, the first lock body 40 can be driven to slide in the first direction through the cooperation of the oblique slide groove 52 and the slider 42.
[0039] For details, see Figure 1 and Figure 2Taking the angle at which a user holds the handheld component 10 and uses the shooting assistance device as an example, the side of the handheld component 10 facing the user is the front 103. In this case, the first locking hole 11 can be located on the upper side 104 of the handheld component 10, and the second locking hole 12 can be located on the left side 105 of the handheld component 10. The second locking hole 12 can also be located on the right side of the handheld component 10. It should be understood that the shooting assistance device provided in this embodiment can, according to actual needs, have the first locking hole 11 and the second locking hole 12 located on adjacent sides of the handheld component 10, so that external components or connectors 20 can be connected to different sides of the handheld component 10 through the first locking hole 11 and the second locking hole 12.
[0040] The connector 20 has one end detachably mounted in the first lock hole 11 and / or the second lock hole 12. Thus, the connector 20 can be mounted in either the first lock hole 11 or the second lock hole 12, meaning it can engage with one of the lock holes, leaving the other lock hole open for connection to external components (such as a fill light or microphone). The connector 20 can be mounted in both the first and second lock holes, allowing it to lock and unlock. This means the connector 20 can be detached from the first lock hole 11 and mounted in the second lock hole 12, changing its position. When the connector 20 is mounted in different lock holes, since the lock holes are located on adjacent sides of the handheld component 10, different shooting effects can be achieved, for example, see [reference needed]. Figure 3 When one end of the connector 20 is installed in the first locking hole 11, the length direction of the connector 20 is the same as the length direction of the handheld part 10, thus giving the entire shooting auxiliary device a certain length. At this time, the user holds the handheld part 10, and the shooting device is located above the hand (the shooting device is fixed to the holding part 30), which is suitable for users to take selfies, shoot from high angles, etc.; see Figure 2 When one end of the connector 20 is installed in the second lock hole 12, the connector 20 is on the side of the handheld part 10. At this time, the retaining part 30 is also located on the side of the handheld part 10. After the shooting device is fixed by the retaining part 3, the height of the shooting device is similar to the height of the handheld part 10. At this time, controlling the shooting device to take pictures / shoots through the shooting auxiliary device has an experience similar to using a digital camera. At the same time, since the height of the shooting device is similar to the height of the handheld part 10, it is suitable for users to shoot at low positions (such as shooting close to the ground).
[0041] The retaining member 30 is used to fix shooting devices such as mobile phones and tablets. Specifically, the retaining member 30 can fix the shooting device by clamping or magnetic attraction. The first locking body 40 is slidably disposed on the handheld member 10 in the first direction to drive the first locking tongue 41 to slide in the first locking hole 11. The sliding of the first locking tongue 41 in the first locking hole 11 can lock or unlock the components installed in the first locking hole 11, such as locking or unlocking the connecting member 20, or locking or unlocking external devices such as fill lights and microphones, as long as the corresponding locking structure is provided on the corresponding components. Similarly, the second locking body 50 is slidably disposed on the handheld member 10 in the second direction to drive the second locking tongue 51 to slide in the second locking hole 12, thereby locking or unlocking the components installed in the second locking hole 12. See Figure 5 and Figure 7 The first lock body 40 and the second lock body 50 each have an inclined groove 52 on one and a slider 42 that cooperates with the inclined groove 52 on the other. When the slider 42 is set on the first lock body 40, when the first lock body 40 slides in the first direction, it will drive the slider 42 to move in the same direction, thereby causing the slider 42 to slide in the inclined groove 52. Through the force between the slider 42 and the inclined groove 52, the second lock body 50 will eventually be driven to slide in the second direction. Similarly, the inclined groove 52 can also be set on the first lock body 40, in which case the slider 42 is set on the second lock body 50. Due to the cooperation of the slider 42 and the inclined slide groove 52, when the first lock body 40 slides in the first direction, it can drive the second lock body 50 to slide in the second direction, or the second lock body 50 can drive the first lock body 40 to slide in the first direction. Therefore, the reset member 60 only needs to reset one of the lock bodies to drive the other lock body to reset. Of course, the reset member 60 can also reset the first lock body 40 and the second lock body 50 respectively as needed.
[0042] In one embodiment, the first direction (e.g.) Figure 5 The X direction and Figure 8 The X direction in the diagram refers to the direction in which the first lock body 40 is held by the handpiece 10 to unlock the first bolt 41 in the first lock hole 11; the second direction (e.g., ...) Figure 5 The Y direction and Figure 8 The Y direction in the figure represents the direction in which the second lock body 50 is held by the handpiece 10 to drive the second bolt 51 to unlock the second lock hole 12.
[0043] See Figures 5 to 7 The first lock body 40 has a notch 43, and one end of the second lock body 50 is installed in the notch 43. The oblique slide 52 and the slider 42 are respectively located in the notch 43 and in the second lock body 50. Thus, by setting the notch 43, the sliding range of the slider 42 and the oblique slide 52 can be limited within the range of the notch 43.
[0044] See Figures 5 to 7 The slider 42 is disposed in the notch 43, and the inclined slide 52 is disposed in the second lock body 50. The height of the slider 42 is less than the depth of the notch 43. After one end of the second lock body 50 is installed in the notch 43, one end of the second lock body 50 is located between the inner wall of the first lock body 40 and the handheld part 10. The height of the second lock body 50 installed in the notch 43 is less than the depth of the notch 43. Specifically, the notch 43 is composed of a first groove wall 431 and a second groove wall 432. The depth of the notch 43 is equal to the height of the first groove wall 431 and the second groove wall 432. The height of the slider 42 is less than the depth of the notch 43, meaning that the height of the slider 42 is less than the height of the first groove wall 431 and the second groove wall 432. Thus, the slider 42 is located within the notch 43 and does not protrude from it. The second lock body 50 is installed in the notch 43 at a height less than the depth of the notch 43, and one end of the second lock body 50 is located between the first lock body 40 and the inner wall of the handheld part 10. In other words, one end of the second lock body 50 is installed in the notch 43 and has a certain amount of space between the notch 43 and the inner wall of the handheld part 10, preventing the first end of the second lock body 50 from abutting against the inner wall of the handheld part 10, which would cause a large frictional force between the first end of the second lock body 50 and the inner wall of the handheld part 10.
[0045] In one embodiment, the reset member 60 is configured as a spring, with one end connected to the handheld member 10 and the other end connected to the first lock body 40 or the second lock body 50. Thus, the spring allows for convenient reset of either the first lock body 40 or the second lock body 50. Furthermore, due to the cooperation of the slider 42 and the inclined slide groove 52, when one of the first lock body 40 or the second lock body 50 slides, it drives the other to slide as well. Therefore, when the reset member 60 drives one lock body to reset, the other lock body is also reset.
[0046] In one embodiment, the reset member 60 includes a first magnetic member and a second magnetic member (not shown in the figure). The first magnetic member is disposed on the handheld member 10, and the second magnetic member is disposed on the first lock body 40 or the second lock body 50. A repulsive magnetic force is formed between the first magnetic member and the second magnetic member. Thus, by providing the first magnetic member and the second magnetic member, the reset of the first lock body 40 or the second lock body 50 can be easily achieved.
[0047] In one embodiment, the opening direction of the first keyhole 11 is perpendicular to the opening direction of the second keyhole 12. That is to say, the direction in which the connector 20 or other external components are installed in the first keyhole 11 and the second keyhole 12 is perpendicular to that of the second keyhole, thereby meeting the needs of users in common scenarios.
[0048] See Figure 5The first latch 41 is provided with a first guide slope 411, and the second latch 51 is provided with a second guide slope 511. Therefore, when the connector 20 or other external components are installed in the first lock hole 11, they will press against the first guide slope 411, causing the first latch 41 to slide and preventing interference with the connector 20 or other external components when installed in the first lock hole 11. Similarly, when the connector 20 or other external components are installed in the second lock hole 12, they will press against the second guide slope 511, causing the second latch 51 to slide and preventing interference with the connector 20 or other external components when installed in the second lock hole 12.
[0049] See Figure 4 The handheld component 10 includes a first housing 101 and a second housing 102. The outer surface of the first housing 101 is configured as a curved surface for easy gripping by the user. A first locking hole 11 and a second locking hole 12 are disposed on the second housing 102. Thus, the curved surface facilitates user gripping. In one embodiment, the first housing 101 and the second housing 102 form an installation space for the power supply core 90. A charging cable 80 is also disposed on the second housing, and the charging cable 80 is electrically connected to the power supply core 90. Therefore, the handheld component 10 can function as a power bank via the power supply core 90, and the charging cable 80 can charge the power supply core 90 or supply power to external devices.
[0050] See Figure 8 and Figure 9 The second housing 102 is provided with a first mounting groove 1021 and a second mounting groove 1022. The first lock hole 11 is connected to the first mounting groove 1021, and the second lock hole 12 is connected to the second mounting groove 1022. The first lock body 40 is installed in the first mounting groove 1021 and can slide in the first mounting groove 1021 in a first direction. The second lock body 50 is installed in the second mounting groove 1022, and one end of the second lock body 50 extends into the first mounting groove 1021 and is sandwiched between the first lock body 40 and the bottom of the first mounting groove 1021. Therefore, the first mounting groove 1021 is not only used to install the first lock body 40, but also to limit the sliding of the first lock body 40 in the first direction, ensuring the stability of the sliding of the first lock body 40 in the first direction; one end of the second lock body 50 extends into the first mounting groove 1021 and is sandwiched between the first lock body 40 and the bottom of the first mounting groove 1021, so that the second lock body 50 slides in the second direction, that is, slides together in the second mounting groove 1022 and the first mounting groove 1021. The two connected first mounting grooves 1021 and second mounting grooves 1022 make the sliding of the first lock body 40 and the second lock body 50 smoother.
[0051] The retaining member 30 is provided with a magnetic surface (not shown in the figure). Thus, the retaining member 30 can be magnetically attracted to the back of the shooting device through the magnetic surface, thereby fixing the shooting device.
[0052] In one embodiment, the unlocking button 70 is integrally formed with the first lock body 40 or with the second lock body 50.
[0053] It should be understood that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some of the technical features; and all such modifications and substitutions should fall within the protection scope of the appended claims of this utility model.
Claims
1. A shooting auxiliary device, characterized in that, include: A handheld component, wherein the handheld component is provided with a first locking hole and a second locking hole, the first locking hole and the second locking hole being respectively provided on adjacent sides of the handheld component; A connector, one end of which is detachably mounted to the first lock hole and / or the second lock hole; A retaining member, wherein the retaining member is connected to the other end of the connecting member; A first lock body, the first lock body being provided with a first lock tongue, the first lock body being slidably disposed on the handpiece in a first direction to drive the first lock tongue to slide in the first keyhole; The second lock body is provided with a second lock tongue. The second lock body is slidably disposed on the handpiece in a second direction to drive the second lock tongue to slide in the second lock hole. One of the first lock body and the second lock body is provided with an oblique sliding groove, and the other is provided with a slider that cooperates with the oblique sliding groove. A reset member is disposed on the handheld member, the reset member drives the first lock body to slide in the opposite direction of a first direction to reset the first lock body, and / or the reset member drives the second lock body to slide in the opposite direction of a second direction to reset the second lock body; An unlocking button is connected to the first lock body and can drive the first lock body to slide in a first direction, or the unlocking button is connected to the second lock body and can drive the second lock body to slide in a second direction.
2. The shooting auxiliary device according to claim 1, characterized in that, The first lock body has a notch, one end of the second lock body is installed in the notch, and one of the inclined slide and the slider is disposed in the notch, while the other is disposed in the second lock body.
3. The shooting auxiliary device according to claim 2, characterized in that, The slider is disposed in the notch groove, the inclined slide groove is disposed in the second lock body, the height of the slider is less than the depth of the notch groove, one end of the second lock body is installed in the notch groove, one end of the second lock body is located between the inner wall of the first lock body and the handheld part, and the height of the second lock body installed in the notch groove is less than the depth of the notch groove.
4. The shooting auxiliary device according to claim 1, characterized in that, The reset element is configured as a spring, with one end connected to the handheld component and the other end connected to the first lock body or the second lock body.
5. The shooting auxiliary device according to claim 1, characterized in that, The reset component includes a first magnetic component and a second magnetic component. The first magnetic component is disposed on the handheld component, and the second magnetic component is disposed on the first lock body or the second lock body. The first magnetic component and the second magnetic component form a repulsive magnetic force.
6. The shooting auxiliary device according to claim 1, characterized in that, The opening direction of the first keyhole is perpendicular to the opening direction of the second keyhole.
7. The shooting auxiliary device according to claim 6, characterized in that, The first locking tongue is provided with a first guide slope, and the second locking tongue is provided with a second guide slope.
8. The shooting auxiliary device according to any one of claims 1-7, characterized in that, The handheld component includes a first housing and a second housing. The outer surface of the first housing is configured as a curved surface for easy gripping by the user. The first lock hole and the second lock hole are disposed in the second housing.
9. The shooting auxiliary device according to claim 8, characterized in that, The second housing is provided with a first mounting groove and a second mounting groove. The first lock hole is connected to the first mounting groove, and the second lock hole is connected to the second mounting groove. The first lock body is installed in the first mounting groove and can slide in the first mounting groove in the first direction. The second lock body is installed in the second mounting groove, and one end of the second lock body extends into the first mounting groove and is sandwiched between the first lock body and the bottom of the first mounting groove.
10. The shooting auxiliary device according to claim 8, characterized in that, The retaining member is provided with a magnetic suction surface.