CN215841601U - Press holding mechanism for toy product and camera toy - Google Patents

Abstract

The utility model relates to the technical field of toys, in particular to a pressing mechanism for toy products and a camera toy, which comprise a carrier assembly and a pressing assembly, wherein the carrier assembly is provided with a mounting position for accommodating a component, and the pressing assembly is provided with a pressing area; the pressing and holding assembly is movably connected with the carrier assembly and used for enabling the pressing and holding area to prop the component in the mounting position when the mounting position is partially or completely covered; the pressing and holding assembly is movably connected on the carrier assembly, and the mounting position for accommodating the component is arranged on the carrier assembly, so that the purpose of pressing and holding the fixed component can be achieved when the pressing and holding assembly partially covers or completely covers the mounting position, and the replacement efficiency of the component is improved; therefore, the convenience of replacing the vulnerable component imaging lens on the camera toy is improved.

Description

Press holding mechanism for toy product and camera toy

Technical Field

The utility model relates to the technical field of toys, in particular to a pressing and holding mechanism for a toy product and a camera toy.

Background

In the existing toys, various mechanisms are used for fixing components on the toys, and particularly for vulnerable components on the toys, manufacturers generally adopt a pressing and holding mechanism to press, hold and fix the vulnerable components so as to facilitate users to conveniently replace the vulnerable components; however, the pressing and holding mechanism of the existing toy product has a complex structure and is cumbersome to operate, and easily damaged components are inconvenient to replace;

for example, in a toy camera such as a kaleidoscope, a user can observe different images through a visual window every time the imaging lens of the toy camera rotates by a certain angle, which means that the imaging lens as a vulnerable component needs to be replaced not only after being worn but also frequently to observe different images.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a pressing mechanism for toy products and a camera toy, which are simple and convenient to operate.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the pressing and holding mechanism for the toy product comprises a carrier assembly and a pressing and holding assembly, wherein the carrier assembly is provided with a mounting position, the mounting position is used for accommodating a component, and the pressing and holding assembly is provided with a pressing and holding area;

the pressing component is movably connected with the carrier component and used for partially covering or completely covering the installation position so that the pressing area can prop the component in the installation position.

In the pressing and holding mechanism for toy products, the pressing and holding assembly comprises a pressing cover, a connecting part is arranged on the pressing cover, the pressing cover is movably connected with the carrier assembly through the connecting part, a pressing and holding part is also arranged on the pressing cover, and a pressing and holding area is positioned on the pressing and holding part.

In the pressing and holding mechanism for toy products, the connecting part comprises a connecting column arranged on the pressing cover, and the connecting column is detachably inserted on the carrier component.

In the pressing and holding mechanism for toy products of the present invention, the pressing and holding portion includes a pressing and holding column, the pressing and holding column is disposed on the pressing cover, and the pressing and holding area is located on the pressing and holding column.

In the pressing and holding mechanism for toy products, the carrier assembly is provided with the containing groove, and the containing groove is surrounded on the carrier assembly to form the mounting position.

A camera toy includes a press and hold mechanism for a toy product as described above.

In the camera toy of the present invention, the camera toy further comprises a rotating assembly including a synchronization tray disposed in the mounting location and a rotary driving member disposed on the carrier assembly;

wherein, the gyration driving piece is used for driving synchronous tray and rotates relatively to the carrier subassembly to make synchronous tray drive components and parts synchronous rotation.

In the camera toy of the present invention, the rotary driving member includes a slider slidably provided on the carrier assembly and a sleeve rotatably provided on the carrier assembly;

when the sliding part slides relative to the carrier assembly under the action of external force, the shaft sleeve is driven by the sliding part to rotate so as to drive the synchronous tray to rotate.

In the camera toy of the present invention, the rotary driving member further includes a toggle member rotatably disposed on the carrier assembly, the toggle member being configured to push the sliding member to slide relative to the carrier assembly.

In the camera toy of the utility model, a plurality of driven parts are arranged on the shaft sleeve, the sliding part is provided with a spring plate, and the spring plate is provided with a touch part;

the touch part pushes the driven part to move when the sliding part slides along the preset direction, and the touch part stops pushing the driven part to move when the sliding part is reset.

The implementation of the pressing and holding mechanism for the toy product and the camera toy of the utility model has at least the following beneficial effects: the pressing and holding assembly is movably connected on the carrier assembly, and the mounting position for accommodating the component is arranged on the carrier assembly, so that the purpose of pressing and holding the fixed component can be achieved when the pressing and holding assembly partially covers or completely covers the mounting position, and the replacement efficiency of the component is improved; therefore, the convenience of replacing the vulnerable component imaging lens on the camera toy is improved.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of a camera toy according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of the pressure holding mechanism of FIG. 1;

FIG. 3 is a schematic view of the holding assembly, the rotating assembly and the components of FIG. 2 from another perspective;

FIG. 4 is an exploded view of the camera toy shown in FIG. 1;

FIG. 5 is an enlarged view of the camera toy shown in FIG. 4 at A;

fig. 6 is a schematic structural view of one embodiment of a press and hold mechanism for a toy product and a camera toy according to the present invention.

Detailed Description

Fig. 1 illustrates a camera toy 20 and fig. 2 illustrates a press and hold mechanism 10 therein, in which the press and hold mechanism 10 may include a carrier assembly 100 and a press and hold assembly 200, according to some embodiments of the present invention. The carrier assembly 100 is provided with a mounting position 110, the carrier assembly 100 is used for carrying the component 30 which needs to be pressed and fixed, and the mounting position 110 is used for accommodating the component 30 which needs to be pressed and fixed. The pressing assembly 200 is movably connected to the carrier assembly 100, and the pressing assembly 200 is used for pressing and fixing the component 30 in the mounting position 110. The pressing component 200 is provided with a pressing area 210, and the pressing area 210 is used for pressing the component 30.

It is understood that the carrier assembly 100 can be configured in different configurations depending on the type of toy to hold the component 30 in place on different types of toys; the pressing component 200 can be movably arranged on the carrier component 100 through a hinge, a pull rope or a slide rail;

in the process of pressing and holding the component 30, when the pressing and holding assembly 200 is used to partially cover the mounting location 110, the pressing and holding area 210 on the pressing and holding assembly 200 will push and hold the component 30 in the mounting location 110, so as to achieve the purpose of pressing and holding the component 30.

It is understood that in some implementations, the pressing area 210 of the pressing assembly 200 may also be used to completely cover the mounting location 110, so that the pressing area 200 may press the component 30 into the mounting location 110, and the component 30 may also be fixed.

As shown in fig. 1, 2 and 3, the pressure holding assembly 200 may include a gland 220, a connecting portion 230 and a pressure holding portion 240 in some embodiments. The pressing cover 220 serves to fix the connecting portion 230 and the pressing portion 240. The connecting portion 230 is disposed on the pressing cover 220, and the connecting portion 230 is used for movably connecting the pressing cover 220 to the carrier assembly 100. The pressing portion 240 is disposed on the pressing cover 220, the pressing area 210 is disposed on the pressing portion 240, and the pressing portion 240 is used for pressing and fixing the component 30 in the mounting position 110 through the pressing area 210.

It can be understood that the shape and material of the gland 220 can be flexibly set according to the shape and specification of the actual product; the connecting portion 230 may be a hinge, a pull rope, a slide rail, or the like, which can movably connect the pressing cover 220 with the carrier assembly 100; the shape material of the pressing part 240 can be flexibly set according to the shape specification of the actual product and the shape specification of the component 30 to be pressed, for example, the pressing part 240 can be made of a soft rubber material, the component is prevented from being crushed by the pressing part 240, and the pressing part 240 can be set to be cylindrical, triangular prism, cuboid or irregular shape and the like so as to adapt to different installation spaces of different sizes and different types of components 30 to be pressed.

As shown in fig. 2 and 3, the connection part 230 may include a connection post 231 disposed on the gland 220 in some embodiments, the connection post 231 is detachably inserted on the carrier assembly 100, and the connection post 231 can be inserted to a predetermined position on the carrier assembly 100.

It is understood that, when the connection post 231 is properly inserted into the carrier assembly 100, the pressing cover 220 partially or completely covers the mounting location 110, so that the pressing portion 240 presses and fixes the component 30 in the mounting location 110;

it can be understood that, a part adapted to the pressing cover 220 may be disposed on the carrier assembly 100, so that when the connection post 231 is inserted into the carrier assembly 100 to a predetermined depth, the pressing cover 220 is also tightly fitted with the carrier assembly 100, thereby fixing the relative position between the pressing cover 220 and the carrier assembly 100, further improving the fitting reliability between the component 30 and the mounting location 110, and preventing the component 30 from coming off from the mounting location 110; in addition, a mutually-matched snap structure or a magnetic attraction structure and the like can be arranged on the carrier assembly 100 and the gland 220, as long as the relative position of the gland 220 and the carrier assembly 100 can be fixed.

As shown in fig. 2 and fig. 3, the pressing portion 240 may include a pressing pillar 241 in some embodiments, the pressing pillar 241 is disposed on the pressing cover 220, the pressing region 210 is located on the pressing pillar 241, and the pressing pillar 241 is used for supporting the component 30 in the mounting position 110, so as to fix the component 30.

It can be understood that the holding column 241 can be made of a soft glue, hard glue or soft and hard glue combined structure, and specifically, the structure and material of the component 30 to be held can be flexibly set according to the requirement; the pressing column 241 and the gland 220 can be integrally formed, so that the connection strength of the pressing column 241 and the gland 220 is improved, and the cracking separation of the connection position of the pressing column 241 and the gland 220 due to the excessively low connection strength is avoided; the pressure holding column 241 may be a cylinder, a triangular prism, a quadrangular prism or other shapes;

it can be understood that the number of the pressing columns 241 may be two or more, and the height, width and material of each pressing column 241 may be the same or different, so as to improve the stability of the component 30 after being pressed and fixed; in particular, in the case of the irregularly shaped component 30, the pressing columns 241 of different shapes, specifications, and materials can press and fix the respective positions of the component 30, thereby ensuring the stability of the component 30 after mounting.

As shown in fig. 1 and fig. 2, the carrier assembly 100 may have a receiving groove 120 in some embodiments, the receiving groove 120 surrounds the carrier assembly 100 to form a mounting position 110, and the receiving groove 120 is used for receiving the component 30.

The accommodating groove 120 can be a contour groove similar to the shape of the component 30, so that the component 30 is limited, and the stability of the component 30 after being pressed and fixed is improved; other devices or structures capable of fixing the component 30 may be provided in the accommodation groove 120.

Fig. 1-6 illustrate a press and hold mechanism 10 for a toy product and a camera toy 20 according to some embodiments of the present invention, the camera toy 20 including a press and hold mechanism for a toy product as described above.

It is to be understood that the component 30 to be held in place and replaced as described above and below in the present invention may be a lens for imaging on the camera toy 20.

As shown in fig. 1-4, the camera toy 20 may further include a rotating assembly 300, the rotating assembly 300 includes a synchronization tray 310 disposed in the mounting position 110 and a rotary driving member 320 disposed on the carrier assembly 100, the synchronization tray 310 is used for driving the components 30 to rotate synchronously, and the rotary driving member 320 is used for providing or transmitting power to the synchronization tray 310 to rotate the synchronization tray 310.

It can be understood that structures such as protrusions or recesses adapted to the component 30 may be disposed on the synchronization tray 310, so that the synchronization tray 310 can drive the component 30 to rotate, or of course, other structures adapted to the synchronization tray 310 and the component 30 may be disposed on the synchronization tray 310 and the component 30, respectively.

It is also understood that pneumatic or electric elements such as air cylinder, electric motor, etc. can be used as the rotary driving member 320 to drive the synchronous tray 310 to rotate; in addition, a mechanical transmission structure may be adopted as the rotary driving member 320 to apply an external force to a predetermined position of the synchronization tray 310 in a predetermined direction, and the purpose of driving the synchronization tray 310 to rotate may also be achieved.

As shown in fig. 5 and 6, the rotary driving member 320 may include a sliding member 321 slidably disposed on the carrier assembly 100 and a sleeve 322 rotatably disposed on the carrier assembly 100, wherein the sliding member 321 is used for transmitting an external force to the carrier assembly 100, and the sleeve 322 is used for driving the synchronization tray 310 to rotate;

when the sliding member 321 slides relative to the carrier assembly 100 under the action of an external force, the sliding member 321 drives the shaft sleeve 322 to rotate during the sliding process, the shaft sleeve 322 drives the synchronization tray 310 to rotate during the rotating process, and meanwhile, the synchronization tray 310 drives the component 30 to rotate.

It is understood that the sliding member 321 can be slidably disposed on the carrier assembly 100 through a sliding rail structure; the shaft sleeve 322 is provided with a shaft hole for corresponding matching with the synchronization tray 310.

It can be understood that the shaft sleeve 322 may be provided with a toothed key 327, and the synchronous tray 310 may be provided with a groove body adapted to the toothed key, so as to achieve the purpose that the shaft sleeve 322 drives the synchronous tray 310 to rotate; the synchronous tray 310 can also be provided with a tooth key, and the shaft sleeve 322 is provided with a groove body matched with the tooth key, so that the purpose that the shaft sleeve 322 drives the synchronous tray 310 to rotate can be achieved.

As shown in fig. 4 and fig. 6, in some embodiments, the rotary driving element 320 may further include a shifting element 323, the shifting element 323 is rotatably disposed on the carrier assembly 100, and the shifting element 323 is configured to push the sliding element 321 to slide relative to the carrier assembly 100.

It is understood that the toggle member 323 can be connected to the carrier assembly 100 by a hinge or a rotating shaft; secondly, the poking part 323 can be set into various shapes and specifications according to different types of toys; thirdly, a soft adhesive layer may be disposed at a portion of the toggle member 323 contacting the user for operation comfort of the toy.

As shown in fig. 5 and 6, the shaft sleeve 322 may have a plurality of driven portions 324 in some embodiments, the sliding member 321 may have a spring sheet 325, and the spring sheet 325 may have a touch portion 326; the driven portion 324 is used for receiving the force of the trigger portion 326 and further transmitting the force to the sleeve 322; the elastic sheet 325 plays a role of fixing the touch part 326, and the elastic sheet 325 also has certain elasticity; the trigger 326 is used to transmit the force of the slider 321 to the follower 324.

When the camera toy 20 is actually used, a user applies force to the sliding member 321 to slide the sliding member 321 relative to the carrier assembly 100, and the sliding member 321 pushes the driven portion 324 to move through the elastic sheet 325 and the touch portion 326 in the process of sliding along a predetermined direction, so that the shaft sleeve 322 rotates, and the purpose of driving the component 30 to rotate is achieved; in the process of the sliding member 321, the touch portion 326 drives the elastic sheet 325 to generate elastic deformation under the pushing of the driven portion 324, so that the touch portion 326 cannot push the driven portion 324 to move, and the component 30 is not driven to rotate any more.

As shown in fig. 5 and 6, in some embodiments, the touching portion 326 may be configured as a triangular prism, and the driven portion 324 may be configured as a dome-shaped protrusion; in the process of actual use, the water-soluble film,

it can be understood that when the sliding element 321 slides along the direction of the predetermined direction, i.e. the sliding element 321 slides along the direction capable of rotating the component 30, the dome-shaped convex driven portion 324 will contact with one side surface of the triangular prism-shaped touch portion 326, and during the sliding of the sliding element 321 continuously along the predetermined direction, the touch portion 326 will apply a force to the driven portion 324 through the side surface, so that the driven portion 324 will slide under the support of the touch portion 326, thereby driving the bushing 322 to rotate the component 300;

it can be understood that, when the sliding member 321 is reset, the dome-shaped convex driven portion 324 contacts with an inclined surface of the triangular-cylindrical triggering portion 326, and during the process of resetting and sliding the sliding member 321, the triggering portion 326 cannot apply a force capable of driving the driven portion 324 to move to the driven portion 324 through the inclined surface, but instead, during the process of resetting and sliding the triggering portion 326, the driven portion 325 is driven to deform by the pushing of the driven portion 324, so that, when the sliding member 321 is reset, the driven portion 324 is not driven to be synchronously reset by the driving of the triggering portion 326.

In some embodiments, a spring or other component with a spring action may be used to drive the slide 321 to return.

As shown in fig. 6, in some embodiments, a top holding surface 328 may be provided on the sliding member 321, the top holding surface 328 is used for contacting with the toggle member 323, and the top holding surface 328 acts to transfer the acting force between the sliding member 321 and the toggle member 323.

As shown in fig. 4 and 6, the camera toy 20 further includes a kit 400 in some embodiments, the kit 400 being connected to the carrier assembly 100, the kit 400 being used to form the camera toy 20.

As shown in fig. 4 and 6, the kit 400 may include a housing 410 in some embodiments, the housing 410 being connected to the carrier assembly 100, the housing 410 serving to mount and protect the remaining components.

Further, the housing 410 may be opened with a lens channel 411 in some embodiments, and the accessory set 400 may further include a lens 420, where the lens channel 411 is used for accommodating the lens 420, and the lens 420 is used for magnifying the image on the component 30.

It will be appreciated that a user may view an image on the component 30 through the lens 420 in the lens channel 411.

Further, the housing 410 may further open a speaker channel 412 in some embodiments, and the accessory set 400 may further include a speaker 430, the speaker 430 is disposed in the speaker channel 412, the speaker channel 412 is configured to transmit sound of the speaker 430 to the outside of the camera toy 20, and the speaker 430 is configured to emit sound when energized.

It is understood that the number of speakers 430 and the number of speaker channels 412 can be flexibly set according to the design specifications of the toy.

Further, the housing 410 may further have a battery receiving groove in some embodiments, and the battery receiving groove is used for receiving a battery; the accessory set 400 may further include a battery cover 440, wherein the battery cover 440 is disposed on the battery receiving groove, and the battery cover 440 protects the battery.

It can be understood that the shape of the groove body of the battery accommodating groove can be flexibly arranged according to different types of batteries so as to accommodate different types of batteries.

Further, the accessory set 400 may further include a voice-activated switch 450 and a voice-activated circuit board 460 in some embodiments, the voice-activated switch 450 and the voice-activated circuit board 460 are respectively disposed on the housing 410, and the voice-activated switch 450 is electrically connected to the voice-activated circuit board 460, the voice-activated switch 450 is configured to conduct the voice-activated circuit board 460 after rotating or moving; the voice-operated circuit board 460 is also electrically connected to the speaker 430, and the voice-operated circuit board 460 is used for controlling the operation of the speaker 430.

It will be appreciated that the voice activated switch 450 may conduct the voice activated circuit board 460 directly or through other components.

Further, in some embodiments, the housing 410 may further have a sliding groove 470, the sliding member 321 is slidably disposed on the housing 410 through the sliding groove 470, and the sliding groove 470 serves to guide the sliding member 321 to slide.

It can be understood that under the action of the external force, the sliding member 321 will slide along the sliding slot 470, so as to achieve the purpose that the sliding member 321 can drive the shaft sleeve 322 to rotate during the sliding process.

The implementation of the pressing and holding mechanism for the toy product and the camera toy of the utility model has at least the following beneficial effects: the pressing and holding assembly is movably connected on the carrier assembly, and the mounting position for accommodating the component is arranged on the carrier assembly, so that the purpose of pressing and holding the fixed component can be achieved when the pressing and holding assembly partially covers or completely covers the mounting position, and the replacement efficiency of the component is improved; therefore, the convenience of replacing the vulnerable component imaging lens on the camera toy is improved.

It is to be understood that the foregoing examples, while indicating the preferred embodiments of the utility model, are given by way of illustration and description, and are not to be construed as limiting the scope of the utility model; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several changes and modifications can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. The pressing and holding mechanism for the toy product is characterized by comprising a carrier assembly (100) and a pressing and holding assembly (200), wherein an installation position (110) is arranged on the carrier assembly (100), the installation position (110) is used for accommodating a component (30), and a pressing and holding area (210) is arranged on the pressing and holding assembly (200);

the pressing component (200) is movably connected with the carrier component (100), and when the pressing component (200) is used for partially covering or completely covering the mounting position (110), the pressing area (210) is used for pressing the component in the mounting position (110).

2. The clamping mechanism for toy products according to claim 1, wherein said clamping assembly (200) comprises a pressing cover (220), said pressing cover (220) is provided with a connecting portion (230), said pressing cover (220) is movably connected with said carrier assembly (100) through said connecting portion (230), said pressing cover (220) is further provided with a clamping portion (240), and said clamping area (210) is located on said clamping portion (240).

3. The clamping mechanism for toy products according to claim 2, wherein said connecting portion (230) comprises a connecting post (231) provided on said gland (220), said connecting post (231) being removably insertable on said carrier assembly (100).

4. A clamping mechanism for a toy product according to claim 2 or 3, characterised in that the clamping portion (240) comprises a clamping post (241), the clamping post (241) being arranged on the gland (220), the clamping area (210) being located on the clamping post (241).

5. The pressing mechanism for toy products according to claim 1, wherein the carrier assembly (100) defines a receiving slot (120), and the receiving slot (120) is formed on the carrier assembly (100) to define the mounting position (110).

6. A camera toy, characterized in that it comprises a press-holding mechanism (10) for toy products according to any one of claims 1 to 5.

7. The camera toy of claim 6, wherein the camera toy (20) further comprises a rotating assembly (300), the rotating assembly (300) comprising a synchronization tray (310) disposed within the mounting location (110) and a rotary drive (320) disposed on the carrier assembly (100);

the rotary driving part (320) is used for driving the synchronous tray (310) to rotate relative to the carrier assembly (100), so that the synchronous tray (310) drives the component (30) to rotate synchronously.

8. The camera toy of claim 7, wherein the rotary drive member (320) comprises a slider (321) slidably disposed on the carrier assembly (100) and a bushing (322) rotatably disposed on the carrier assembly (100);

when the sliding part (321) slides relative to the carrier assembly (100) under the action of external force, the shaft sleeve (322) is driven by the sliding part (321) to rotate so as to drive the synchronous tray (310) to rotate.

9. The camera toy of claim 8, wherein the rotary driving member (320) further comprises a toggle member (323), the toggle member (323) is rotatably disposed on the carrier assembly (100), and the toggle member (323) is used for propping the sliding member (321) to slide relative to the carrier assembly (100).

10. The camera toy as claimed in claim 8, wherein the shaft sleeve (322) is provided with a plurality of driven portions (324), the sliding member (321) is provided with a resilient piece (325), and the resilient piece is provided with a touch portion (326);

the trigger part (326) abuts against the driven part (324) to move when the sliding part (321) slides along a preset direction, and the trigger part (326) stops abutting against the driven part (324) to move when the sliding part (321) is reset.

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