CN220303185U - Quick-mounting seat and quick-mounting assembly - Google Patents

Abstract

The utility model relates to a quick-mounting seat and a quick-mounting assembly, wherein the quick-mounting seat comprises a seat body, a locking part, a linkage part and a driving part, wherein the locking part, the linkage part and the driving part are arranged on the same side of the seat body; the linkage part comprises an embedded block and an installation block and is arranged between the locking part and the seat body, and the embedded block can be clamped into a gap between the installation block and the seat body so as to maintain the locking part in a state of locking the quick-mounting plate; the driving part is arranged between the base body and the locking part, and can be triggered by one key to knock the embedded block into the clamping gap between the mounting block and the base body, so that the locking part is locked on the quick mounting plate and the locking part is kept stable at the locking position. The utility model provides a quick-mounting seat has improved quick-mounting seat's practicality and convenience, lets the user change the quick-mounting plate more convenient and fast at the in-process that uses the cloud platform device of taking the quick-mounting seat to obtain better photography, shooting experience.

Description

Quick-mounting seat and quick-mounting assembly

Technical Field

The utility model relates to the technical field of photographic auxiliary equipment, in particular to a quick-mounting seat and a quick-mounting assembly.

Background

The cradle head is a supporting auxiliary device for photographic devices such as video cameras, cameras and the like, and is used for installing lenses of fixed devices. The cloud platform includes fast-assembling board and base, and fast-assembling board is used for installing the camera, and the base is used for fixed fast-assembling board, in order to obtain better shooting experience, needs frequent camera or change camera lens, consequently changes fast-assembling board as required. The existing tripod head base on the market can well install and detach the quick-mounting plate, so that the function of replacing the quick-mounting plate by the tripod head is realized, but the process of installing the quick-mounting plate cannot be completed in one step, and the tripod head base is complex and time-consuming. For example, CN212004834U discloses a self-ejection structure of a tripod head quick-mounting plate, and the quick-mounting plate is fixed by triggering a locking mechanism first and then rotating a plurality of circles back and forth through a locking knob of a base, so that the quick-mounting plate is mounted by the tripod head in a complex and time-consuming process.

Disclosure of Invention

The utility model provides a quick mounting seat, which aims to solve the technical problem that the process of mounting a quick mounting plate by a cradle head is complex and time-consuming.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a quick-mounting seat, which comprises:

a base;

the locking part is movably arranged on the base body and is suitable for switching between a locking position and a releasing position, and the locking part is used for fixing the quick-mounting plate on the base body;

the linkage part is arranged between the seat body and the locking part and comprises an embedded block and an installation block, the installation block is fixedly connected with the locking part, and a clamping gap is arranged between the installation block and the seat body; the embedded block can move relative to the mounting block to be clamped into the clamping gap;

the driving part is arranged between the base body and the locking part, and can be triggered by a key to knock and clamp the embedded block into the clamping gap so as to lock the quick-mounting plate and maintain the locking part to be stably at a locking position.

In one embodiment, the quick-mounting seat further comprises a first elastic piece and a trigger column, wherein the first elastic piece is connected with the driving part and the seat body, and the trigger column is connected with the driving part and the seat body;

when the locking part is at a release position, the triggering column locks and fixes the driving part on the seat body, and the first elastic piece accumulates elastic force; when the trigger post is triggered by one key, the trigger post moves and the locking of the driving part is released, and the first elastic piece drives the driving part to movably strike the embedded block so as to realize that the locking part is stably at the locking position.

In one embodiment, the quick-mounting seat further comprises a second elastic member, and the second elastic member connects the locking part and the seat body; when the locking part is at the release position, the second elastic piece accumulates elastic force; when the trigger post is triggered by one key, the second elastic piece drives the locking part to move to a locking position.

In one embodiment, the trigger post comprises a trigger rod and a stop part which are connected, the driving part is provided with a limit groove, when the locking part is in a release position, the stop part is clamped in the limit groove and locks the driving part, and the trigger post protrudes out of the seat body; when the trigger rod is pressed, the trigger rod moves and drives the stop part to move out of the limit groove, and the driving part is unlocked.

In one embodiment, the quick-mounting seat further includes a third elastic member disposed between the stop portion and the seat body, and when the trigger lever is pressed, the driving portion is unlocked, and the third elastic member accumulates elastic force; when the locking part is in the release position, the third elastic piece drives the stop part to be clamped in the limit groove.

In one embodiment, the driving part comprises a rotating disc and a handle which are connected with each other, the rotating disc is rotationally connected with the base, the handle is connected with the rotating disc and extends out of the base, the rotating disc is provided with a limiting groove, the rotating disc is also provided with an avoidance groove for the trigger rod to slide, and the limiting groove is communicated with the avoidance groove; the first elastic piece is a coil spring, the coil spring is connected with the rotating disc and the seat body, and the rotating disc can strike the embedded block.

In one embodiment, the edge of the rotating disc is convexly provided with a striking block and a clamping hook, and one side of the embedded block, which faces the rotating disc, is provided with a protruding block; when the rotating disc rotates under the acting force of the coil spring, the striking block strikes and clamps the embedded block into the clamping gap; when the handle drives the rotary disk to reversely rotate, the clamping hook abuts against the protruding block and drives the embedded block to move out of the clamping gap.

In one embodiment, a sliding groove is arranged between the locking part and the seat body, the extending direction of the sliding groove is inclined to the moving direction of the locking part, the embedded block is slidably connected to the sliding groove, the radial dimension of the striking block from the circle center of the rotating disk is larger than the radial dimension of the clamping hook from the rotating disk, and an avoidance area is formed between the striking block and the clamping hook; when the rotating disc rotates under the acting force of the coil spring, the clamping hook bypasses the protruding block, the striking block abuts against the embedded block, so that the protruding block enters the avoidance area and is located on the movement track of the reverse rotation of the clamping hook.

In one embodiment, the linkage part further comprises a fourth elastic piece, wherein the fourth elastic piece is positioned in the chute, and one end of the fourth elastic piece is abutted against the embedded block; when the embedded block is embedded into the clamping gap, the fourth elastic piece accumulates elastic force; and when the embedded block is moved out of the clamping gap, the elastic force released by the fourth elastic piece drives the protruding block to be far away from the motion track of the reverse rotation of the clamping hook.

In one embodiment, the mounting block is a roller column, the roller column rotates relative to the locking portion, the embedded block is provided with an abutting inclined plane, and the driving portion is triggered by a key to enable the embedded block to be knocked and clamped into the clamping gap, and the abutting inclined plane abuts against the roller column and drives the roller column to rotate.

In a second aspect, the present utility model provides a quick assembly comprising a quick assembly plate and a quick assembly holder according to any one of the preceding embodiments, the quick assembly plate being mounted and locked to the quick assembly holder by the locking portion.

As can be seen from the technical scheme, the embodiment of the utility model has at least the following advantages and positive effects:

the embodiment of the utility model provides a quick-mounting seat and a quick-mounting assembly, wherein the quick-mounting seat comprises a seat body, a locking part, a linkage part and a driving part. Let the user change the in-process of fast-assembling board at using the cloud platform device, only need just can install locking fast-assembling board on the pedestal through a trigger action, this compares CN212004834U disclosed a cloud platform fast-assembling board from ejecting structure at the in-process of locking fast-assembling board, need trigger locking mechanism earlier, then make a round of just can accomplish the installation locking of fast-assembling board through the locking knob round trip rotation of base, this scheme just need just can let locking part install locking on the pedestal and maintain the locking state of firm fast-assembling board through a key trigger drive portion. According to the scheme, the locking quick-mounting plate is triggered by one key, so that the practicality and convenience of the quick-mounting seat are improved, and a user can conveniently and rapidly replace the quick-mounting plate in the process of using the cradle head device with the quick-mounting seat, so that better shooting and shooting experience is obtained. In addition, this scheme drives the drive division through the elastic component and hits the embedding piece and go into the embedding block with its gomphosis card and go into between installation block and the pedestal, the knocking force of this process makes locking portion can fast block locking fast-assembling board and maintain the steady state at the locking, this compares traditional fast-assembling seat through the method of elastic force locking fast-assembling board, the dynamics through knocking locking fast-assembling board of this scheme is bigger, locking state is more firm, and this scheme does not have very big elastic force's restriction when the unblock to make the unblock process also easier.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a quick assembly according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a quick-mounting seat in an unlocked state according to an embodiment of the present utility model;

FIG. 3 is a schematic structural view of a quick-mounting base in a locked state according to an embodiment of the present utility model;

FIG. 4 is a schematic view of another view angle structure of the quick-mount base shown in FIG. 3;

FIG. 5 is a schematic view of an exploded view of the quick mount of FIG. 4;

FIG. 6 is a schematic view of a bottom view of a quick-release seat in an unlocked state according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a bottom view of a quick-connect base in a locked state according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a bottom view structure of the quick connector of FIG. 6 during rotation of a driving portion;

FIG. 9 is a schematic view of a partial cross-sectional structure taken along line A-A of FIG. 6;

FIG. 10 is a schematic view of a part of the quick-mount base shown in FIG. 7 in an enlarged configuration;

fig. 11 is a schematic view of a partial sectional structure along B-B in fig. 6.

The reference numerals are explained as follows:

1. a quick assembly component; 10. a quick mounting seat; 100. a base; 110. a mounting cavity; 120. avoiding the notch; 130. a base; 140. a cover plate; 150. a chute; 160. wedge-shaped grooves; 170. a curved surface groove; 200. a locking part; 210. a roller; 300. a linkage part; 310. an embedded block; 310a, wedge blocks; 311. a protruding block; 320. a mounting block; 320a, roller columns; 330. a fourth elastic member; 400. a driving section; 410. an avoidance groove; 411. a limit groove; 420. a rotating disc; 421. a striking block; 422. a hook; 423. an avoidance zone; 430. a handle; 500. a clamping part; 510. a dovetail groove; 600. a first elastic member; 600a, coil springs; 700. a second elastic member; 800. a trigger post; 810. a trigger lever; 820. a stopper; 900. a third elastic member; 20. and (5) quick mounting plates.

Detailed Description

Exemplary embodiments that embody features and advantages of the present utility model will be described in detail in the following description. It will be understood that the utility model is capable of various modifications in various embodiments, all without departing from the scope of the utility model, and that the description and illustrations herein are intended to be by way of illustration only and not to be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "arranged," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1, the present utility model provides a quick-mounting base 10 that is convenient to mount and dismount, the quick-mounting base 10 is mainly applied to a cradle head device in the field of photographing support auxiliary equipment, and the quick-mounting base 10 is used for mounting and locking a quick-mounting plate 20. In the process of changing different cameras and lenses of the tripod head, a user only needs to trigger the whole process that the quick-mounting seat 10 is installed and locked on the quick-mounting plate 20, so that the tripod head device can change the quick-mounting plate 20 of different types more conveniently and rapidly, and further, the different lenses and cameras can be changed rapidly, and a user can obtain better shooting experience. Fig. 1 illustrates a quick assembly 1 comprising a quick mount 10 and a quick mount plate 20, the quick mount 10 being adapted to clamp the quick mount plate 20. At this time, the quick-mounting base 10 may be mounted on other external devices, or may be directly supported on a supporting surface. It should be explained that the type of the quick-mounting plate 20 connected to the quick-mounting base 10 is not limited in this embodiment, and the quick-mounting plate 20 should be understood in a broad sense in this application, as long as it is an external device that can be cooperatively connected to the quick-mounting base 10.

Referring to fig. 2 and 3, the quick mount 10 is capable of being switched between an unlocked state (as shown in fig. 2) and a locked state (as shown in fig. 3) such that the quick mount plate 20 can be disengaged or installed and locked to the quick mount 10. The quick-mounting plate 20 can be slidably mounted on the quick-mounting seat 10 from the horizontal direction, and can also be placed on the position to be locked of the quick-mounting seat along the vertical direction, when the quick-mounting plate 20 is in seamless contact with the quick-mounting seat 10, the quick-mounting seat 10 can be triggered by one key to switch from the unlocking state to the locking state so as to mount and lock the quick-mounting plate 20.

Referring to fig. 4 and 5, the quick-mounting socket 10 includes a socket body 100, a locking portion 200, a linkage portion 300, and a driving portion 400. Wherein the base 100 serves as a supporting body for providing an installation space for the quick-mounting plate 20; the locking part 200, the linkage part 300 and the driving part 400 are arranged on the same side of the base 100, the locking part 200 is used for locking or releasing the quick-mounting plate 20 to the base 100, and is suitable for switching between a locking position and a releasing position (when the locking part 200 is in the releasing position, the quick-mounting seat 10 is in an unlocking state; when the locking part 200 is in the locking position, the quick-mounting seat 10 is in a locking state); the linkage part 300 is used for enhancing the locking stability of the quick-mounting plate 20; the driving part 400 is used for being triggered to unlock the quick-mounting seat 10 so as to install and lock the quick-mounting plate 20 on the seat body 100.

Referring to fig. 6 and 7, the linkage part 300 is disposed between the seat 100 and the locking part 200 and includes an embedded block 310 and an installation block 320, the installation block 320 is fixedly connected with the locking part 200, and a clamping gap is disposed between the installation block 320 and the seat 100; the insert block 310 is movable relative to the mounting block 320 to insert the snap gap; the driving part 400 is disposed between the base 100 and the locking part 200, and is used for locking the quick-mounting plate 20 by the one-key triggering of the actions of the linkage part 300 and the locking part 200. Specifically, the driving portion 400 can be triggered by a key to strike the embedded block 310 into the clamping gap, and the locking portion 200 can perform a relative movement with the base 100 to complete locking of the quick assembly plate 20 and maintain a stable locking state (as shown in fig. 7). This can be understood as that after the insert 310 is knocked into the snap-fit gap, the locking portion 200 has completed locking the quick-mounting plate 20 by relative movement with the housing 100 and maintains the locking portion 200 firmly in the locked position. The insert 310 is knocked by the driving portion 400 to perform an insert motion, and the locking portion 200 is not necessarily driven by the driving portion 400 to move in the locking direction, and the locking portion 200 may also move in the locking direction under the action of a spring (for a specific scheme, refer to the following detailed description).

The quick-mounting seat 10 provided by the utility model comprises a seat body 100, a locking part 200, a linkage part 300 and a driving part 400. Let the user use the cloud platform device change the in-process of fast-assembling board 20, only need just through a trigger action just can install locking fast-assembling board 20 on pedestal 100, this compares CN212004834U disclosed a cloud platform fast-assembling board 20 from ejecting structure in the in-process of locking fast-assembling board 20, need trigger locking mechanism earlier, then make a round of rotation just can accomplish the installation locking of fast-assembling board 20 through the locking knob of base 130, this scheme just need trigger drive portion 400 through a key just can let locking portion 200 install locking fast-assembling board 20 on pedestal 100 and maintain the locking state of firm fast-assembling board 20. This scheme triggers locking fast-assembling board 20 through a key and has not only improved the practicality and the convenience of fast-assembling seat 10, lets the user change fast-assembling board 20 more convenient and fast in the in-process of using the cloud platform device of taking this fast-assembling seat 10 moreover to obtain better photography, shooting experience and feel. In addition, this scheme drives drive division 400 through the elastic component and beats embedded block 310 and go into the joint clearance process swiftly, the knocking force of this process makes locking portion 200 can fast block locking fast-assembling board 20 and maintain the steady state at the locking, this compares traditional fast-assembling seat 10 through the method of elastic force locking fast-assembling board 20, this scheme is bigger through the locking dynamics of knocking locking fast-assembling board 20, locking state is more firm, and this scheme does not have very big elastic force's restriction when the unblock and makes the unblock process of fast-assembling seat 10 also easier.

Referring to fig. 4, in the present embodiment, an installation cavity 110 and an avoidance notch 120 that is communicated with the installation cavity 110 are disposed at an edge of the seat body 100, and the locking portion 200 and the driving portion 400 are movably disposed in the installation cavity 110, in the present embodiment, the locking portion 200 and the driving portion 400 can pass through the avoidance notch 120 and move in the avoidance notch 120 to lock or release the quick-mounting plate 20. In this embodiment, the base 100 includes a base 130 and a cover 140, the base 130 and the cover 140 are detachably connected and enclose to form the aforementioned mounting cavity 110, and the avoidance gap 120 is formed on the base 130. The cover plate 140 is detachably connected to and covers the mounting cavity 110, so that the locking portion 200 and the driving portion 400 are stably limited in the mounting cavity 110 and the avoiding notch 120. It should be appreciated that in other embodiments, the base 130 and the cover 140 can be integrally formed, and the removable connection is for facilitating disassembly, assembly, and maintenance of the various components of the quick mount 10.

Referring to fig. 1 and 4, in the present embodiment, the quick-mounting base 10 further includes a clamping portion 500, the clamping portion 500 is disposed on a side of the base 100 away from the locking portion 200, the clamping portion 500 and the locking portion 200 form a clamping space, the quick-mounting plate 20 is clamped in the clamping space, and the clamping portion 500 and the locking portion 200 can be relatively close to or far from each other to change the size of the clamping space, so as to lock or release the quick-mounting plate 20. It should be understood that, in other embodiments, the clamping portion 500 may not be provided first, and only the locking portion 200 needs to be capable of mounting and locking the quick-mounting plate 20 on the base 100; the shape and the installation position of the clamping portion 500 are not limited, and the clamping portion 500 may be provided at the edge of the base 100 or may be provided inside the base 100 in a protruding manner, so long as the clamping space formed by the clamping portion 500 and the locking portion 200 is satisfied, so that the quick-mounting plate 20 can be clamped. In an embodiment, fig. 1 illustrates that the clamping portion 500 is connected with the base 130 and is disposed at an edge of the base 130 away from the locking portion 200, so as to fully utilize the installation space of the base 130, so that the whole quick-mounting seat 10 tends to be more miniaturized. It is understood that in other embodiments, the clamping portion 500 may be disposed inside the base 130. In addition, fig. 1 also illustrates that a dovetail groove 510 is provided at a side of the clamping portion 500 facing the locking portion 200, and the dovetail groove 510 is used to engage the quick-mounting plate 20 with a dovetail structure to improve the stability of the quick-mounting plate 20 after installation.

Referring to fig. 6 and 7, the locking portion 200, the linkage portion 300 and the driving portion 400 are disposed in the mounting cavity 110, the locking portion 200 and the driving portion 400 are movable in the avoidance gap 120, and the driving portion 400 can be triggered by a key to switch the quick-mounting seat 10 between the release and locking states. Fig. 6 illustrates the quick-mount pad 10 in an unlocked state, in which the linkage part 300 and the driving part 400 are in a separated state, the locking part 200 and the clamping part 500 are also apart from each other, and the movement of the locking part 200 and the driving part 400 with respect to the pad body 100 is restricted. The driving part 400 in the unlocked state shown in fig. 6 can be triggered by a key, the driving part 400 triggered by a key moves relative to the base 100 to strike the embedded block 310 to be embedded and clamped into the clamping gap, so that the quick-mounting seat 10 is switched from the unlocked state (shown in fig. 6) to the locked state (shown in fig. 7), at this time, the embedded block 310 of the linkage part 300 is struck by the driving part 400 and contacted with each other, and the locking part 200 and the clamping part 500 are in a state of approaching each other and clamping the quick-mounting plate 20.

Referring to fig. 6 and 7, the quick-mounting base 10 further includes a first elastic member 600, a second elastic member 700, and a trigger post 800, wherein the first elastic member 600 is disposed between the driving portion 400 and the base 100, the second elastic member 700 is disposed between the locking portion 200 and the base 100, and the trigger post 800 is disposed between the driving portion 400 and the base 100 and exposed to the base 100 (as shown in fig. 2) for pressing and triggering the unlocking driving portion 400. In the present embodiment, fig. 6 illustrates that before the trigger post 800 is triggered by a key, the movement of the locking portion 200 and the driving portion 400 relative to the base 100 is limited by the trigger post 800, and at this time, the first elastic member 600 accumulates the first elastic force, and the driving portion 400 has a tendency to move relative to the base 100 under the action of the first elastic force; the second elastic member 700 accumulates a second elastic force, and the locking portion 200 has a tendency to move with respect to the housing 100 by the second elastic force. After the trigger post 800 is triggered by a key, the movement restriction of the driving portion 400 is released, and the embedded block 310 is quickly knocked and engaged into the engagement gap after being quickly moved relative to the base 100 under the action of the first elastic force (as shown in fig. 7). Specifically, after the driving part 400 rotates, the movement restriction of the locking part 200 is also released, and first the locking part 200 moves close to the clamping part 500 with respect to the base 100 under the action of the second elastic force to lock the quick assembly plate 20 (as shown in fig. 8, at this time, the driving part 400 has not knocked the insert block 310, and the insert block 310 is not yet engaged with the mounting block 320); then, the driving part 400 strikes the insert block 310 to enable the insert block 310 to be quickly engaged with the mounting block 320, and in the engagement process, the locking part 200 is driven by the insert block 310 or the mounting block 320 to move further toward the clamping part 500 relative to the base 100 to further lock the locking snap-in plate 20 (as shown in fig. 7).

It should be understood that, in the present embodiment, if the locking portion 200 is already driven to the limit movement position by the second elastic force released by the second elastic member 700, that is, the movement of the locking portion 200 toward the clamping portion 500 side is blocked and limited by the inner wall of the mounting cavity 110, the process of the engaging portion 300 being knocked by the insert block 310 during the engaging process does not drive the locking portion 200 to move further in the locking direction. In this application, in the process that the driving portion 400 knocks the embedded block 310 to be embedded and clamped into the clamping gap, the conversion between mechanical energy is achieved, and the knocking action is instantaneously completed, so that the embedded block 310 can be rapidly clamped, and the locking portion 200 can lock the fast-assembling plate 20 on the base 100.

It should be understood that, in other embodiments, only the movement of the driving portion 400 relative to the base 100 is limited by the trigger post 800 before the trigger post 800 is triggered, and at this time, the first elastic member 600 accumulates the first elastic force, the second elastic member 700 is in a natural state (without accumulating the elastic force), and the driving portion 400 has a tendency to move relative to the base 100 under the action of the first elastic force; after the trigger post 800 is triggered by a key, the motion restriction of the driving portion 400 is released, and the embedded block 310 is quickly knocked and embedded into the clamping gap after the driving portion moves quickly relative to the base 100 under the action of the first elastic force, and in the process of embedding the embedded block 310 into the clamping gap, the embedded block 310 or the mounting block 320 synchronously drives the locking portion 200 to move relatively to the base 100 and close to the clamping portion 500 so as to lock the locking quick-mounting plate 20, at this time, the second elastic member 700 stores an elastic force, and the elastic force is helpful for the unlocking process of the quick-mounting base 10.

Referring to fig. 8 and 9, in the present embodiment, the quick-mounting seat 10 further includes a third elastic member 900 disposed between the trigger post 800 and the seat body 100, the trigger post 800 can move relative to the thickness direction of the quick-mounting seat 10 under the action of the third elastic member 900, and the third elastic member 900 is located in the mounting cavity 110 and two ends of the third elastic member are respectively connected to one end of the trigger post 800 and the inner side of the cover plate 140. When the quick-mounting seat 10 is in the unlocked state, that is, the trigger post 800 protrudes from the seat body 100 and is exposed to the base 130 when not pressed for triggering, at this time, the trigger post 800 can be pressed to release the motion restriction of the driving portion 400 relative to the seat body 100, and the third elastic member 900 compresses and accumulates the third elastic force as the trigger post 800 is pressed. Specifically, the trigger post 800 includes an integrally formed trigger lever 810 and a stopper 820, and the driving part 400 is provided with a dodge groove 410 and a limit groove 411 communicating with the dodge groove 410. Fig. 6 illustrates that when the quick-assembly holder 10 is in the unlocked state, the trigger rod 810 sequentially passes through the avoidance slot 410 and the base 130, and one end of the trigger rod, which is far away from the stop portion 820, is exposed out of the base 130, and the stop portion 820 can be in a limiting slot 411 of one end of the avoidance slot 410 in a limiting and clamping manner so as to limit the sliding of the trigger post 800 in the avoidance slot 410, thereby limiting the movement of the driving portion 400 relative to the holder 100. When the trigger lever 810 is triggered by pressing, the stop portion 820 is separated from the limit slot 411 along the thickness direction of the seat 100 to release the movement restriction of the driving portion 400 relative to the seat 100, and at this time, the driving portion 400 can move relative to the seat 100, so that the trigger post 800 can slide in the avoidance slot 410 relative to the driving portion 400, and slide from one end of the limit slot 411 in the avoidance slot 410 to the other end of the avoidance slot 410 (as shown in fig. 7), and the third elastic member 900 accumulates a third elastic force; when the quick-mounting seat 10 is unlocked, the avoiding groove 410 moves relative to the seat body 100 along with the driving portion 400 until the trigger post 800 is aligned with the limiting groove 411, the quick-mounting plate 20 leaves the quick-mounting seat 10, the trigger post 800 is not pressed, and at this time, the trigger post 800 moves along the thickness direction of the seat body 100 under the action of the third elastic force so that the blocking portion 820 is aligned and clamped into the limiting groove 411 (as shown in fig. 6), thereby enabling the trigger post 800 to recover to the original position and be in limiting and clamping connection with the driving portion 400. It should be understood that, first, the trigger post 800 is only one way to trigger the trigger post 800, and in other embodiments, the trigger post 800 may be other triggering ways, such as pushing, stretching, bouncing, etc., according to the setting position and the connection way of the trigger post 800; the cooperation between the stop portion 820 and the avoiding slot 410 and the limiting slot 411 is only one limiting mode of the trigger post 800 and the driving portion 400, and in other embodiments, different limiting modes can be adopted according to different setting positions of the trigger post 800 and the driving portion 400, and only the requirement that the trigger post 800 can be in limiting clamping connection with the driving portion 400 and be separated from unlocking is met.

Referring to fig. 6 and 7, in the present embodiment, the driving portion 400 includes a rotating disc 420 and a handle 430 connected to each other, the rotating disc 420 is rotatably connected to the base 100, and the handle 430 can drive the rotating disc 420 to rotate relative to the base 100. The first elastic member 600 is a coil spring 600a, where the coil spring 600a is disposed between the base 100 and the rotating disk 420, i.e. one end of the coil spring 600a is fixedly connected to the base 100, the other end is fixedly connected to the outer side of the rotating disk 420, and the avoiding groove 410 is formed in the rotating disk 420. When the quick-mounting seat 10 is in the unlocking state, the coil spring 600a accumulates the first elastic force, and the rotating disk 420 is limited and clamped by the trigger post 800 to limit the movement of the driving part 400 relative to the seat body 100; when the trigger post 800 is pressed to release the limit clamping of the rotating disc 420, the rotating disc 420 rotates relative to the base 100 under the action of the first elastic force and knocks the embedded block 310 into the clamping gap, and at this time, the quick-mounting base 10 is switched from the unlocked state (as shown in fig. 6) to the locked state (as shown in fig. 7). It should be understood that, first, the combination of the rotating disc 420 and the handle 430 is just one way to achieve the function of the driving portion 400, and in other embodiments, the driving portion 400 may be a combination of a sliding block and a pull handle integrally formed, where the first elastic member 600 is a telescopic spring, the sliding block is movably disposed on the base 100, and the telescopic spring is disposed between the sliding block and the base 100. When the quick-mounting seat 10 is in the unlocking state, the expansion spring accumulates the first elastic force, the sliding block is triggered by the trigger post 800 to be clamped in a limiting manner so as to limit the movement of the sliding block relative to the seat body 100, when the trigger post 800 is pressed to release the limiting clamping of the sliding block and the seat body 100, the sliding block slides relative to the seat body 100 under the action of the first elastic force and knocks the embedded block 310 to be clamped into the clamping gap, and at the moment, the quick-mounting seat 10 is switched from the unlocking state (shown in fig. 2) to the locking state (shown in fig. 3). Second, the coil spring 600a may be a torsion spring, the rotating disc 420 may be a cam, and the cooperation of the torsion spring and the cam may also realize the limiting and unlocking movement process of the driving part 400 with respect to the base 100.

Referring to fig. 10, a striking block 421 and a hook 422 are convexly disposed at the edge of the rotating disk 420, the radial dimension of the striking block 421 at the position of the rotating disk 420 is greater than the radial dimension of the hook 422 at the position of the rotating disk 420, and an avoidance region 423 is formed between the striking block 421 and the hook 422; the embedded block 310 is provided with a protruding block 311 protruding from one side facing the rotating disk 420, and when the rotating disk 420 rotates under the action of the coil spring 600a, the striking block 421 can strike the embedded block 310, so that the protruding block 311 enters the avoidance area 423 and the protruding block 311 is located on the movement track of the reverse rotation of the clamping hook 422; the rotating disc 420 can reversely rotate under the driving of the handle 430, so that the hook 422 drives the protruding block 311 to bring the embedded block 310 out of the clamping gap, and the embedded block 310 is separated from the mounting block 320. In addition, a sliding groove 150 is further provided between the housing 100 and the locking portion 200, and an extending direction of the sliding groove 150 is inclined to a moving direction of the locking portion 200. The insert 310 is restricted to slide in the extending direction of the slide groove 150, and when the insert 310 slides in the extending direction of the slide groove 150, the protruding block 311 can enter the escape region 423 and move synchronously with the sliding of the insert 310 in the escape region 423. The sliding groove 150 may be formed on the seat 100, the locking portion 200, and both the seat 100 and the locking portion 200 may be formed with grooves, which are buckled and spliced to form the sliding groove 150.

Referring to fig. 10 and 11 in combination, in the present embodiment, referring to fig. 11 in combination, the linkage member 300 further includes a fourth elastic member 330 disposed between the embedded block 310 and the locking portion 200, wherein the fourth elastic member 330 is located in the chute 150 and has one end abutting against the embedded block 310; when the insert block 310 is inserted into the engagement gap, the fourth elastic member 330 is compressed to accumulate elastic force; when the embedded block 310 moves out of the clamping gap, the fourth elastic member 330 releases the elastic force and drives the protruding block 311 away from the motion track of the reverse rotation of the hook 422, i.e. the protruding block 311 rapidly pops out of the avoiding area 423 of the rotating disc 420 under the action force of the fourth elastic member 330, so that the motion process of the reverse rotation of the hook 422 to unlock the quick-assembly seat 10 is not affected. It should be understood that, in other embodiments, the fourth elastic member 330 may be stretched to accumulate elastic force according to different installation positions, and it is only necessary to meet the requirement that the fourth elastic member 330 movably connects the insert block 310 and the locking portion 200, and accumulate elastic force during the process of inserting the insert block 310 into the clamping gap.

Referring to fig. 11, in the present embodiment, the embedded block 310 is a wedge block 310a, and the wedge block 310a is movably connected to the locking portion 200 through a fourth elastic member 330; the mounting block 320 is a roller column 320a and is fixedly connected to the locking portion 200, the locking portion 200 is provided with a roller 210, and the roller column 320a is sleeved on the roller 210 to rotate relative to the locking portion 200; the wedge 310a can move (approach to or separate from each other) relative to the roller 320a under the action of the fourth elastic element 330, specifically, the wedge 310a is provided with an abutment inclined surface, and in the process that the driving portion 400 is triggered by a key to click the wedge 310a into the clamping gap, the abutment inclined surface abuts against the roller 320a and drives the roller 320a to roll along the abutment inclined surface to assist the wedge 310a into the clamping gap. It should be understood that, in other embodiments, when the shape of the insert 310 is not the wedge 310a, the abutment inclined surface and the roller 320a cooperate to assist the insert 310 to be clamped into the clamping gap, i.e. the shape of the insert 310 is not limited. The base 100 is further provided with a wedge groove 160, the wedge groove 160 is formed by enclosing the cover plate 140 and the roller column 320a for limiting the wedge block 310a, namely, the wedge block 310a can rapidly move relative to the base 100 after being knocked by the driving part 400 so as to be embedded into the wedge groove 160, the roller column 320a is contacted with the roller column 320a in the process of embedding the wedge block 310a into the wedge groove 160, the roller column 320a can rotate relative to the locking part 200 and the base 100 around the roller 210 so as to assist the depth of the wedge block 310a to be further embedded into the wedge groove 160, and meanwhile, the wedge block 310a can drive the locking part 200 to further move so as to further lock the quick-mounting plate 20. The seat body 100 is provided with a curved surface groove 170, the curved surface groove 170 is concavely formed on the inner side of the installation cavity 110 and is used for limiting movement of the roller column 320a, and the roller column 320a can rotate and move relative to the seat body 100 in the curved surface groove 170. In addition, the fourth elastic member 330 is compressed and elastically forced during the process of the wedge block 310a being snapped into the wedge groove 160, and the elastic force can also assist the wedge block 310a to disengage from the wedge groove 160 during the unlocking of the quick connector 10. It should be understood that, first, the wedge block 310a and the roller column 320a are only one matching mode for realizing that the locking portion 200 locks and clamps the quick assembly plate 20 on the base 100 after the linkage 300 is knocked by the driving portion 400, in other embodiments, the shapes of the embedded block 310 and the mounting block 320 are not limited, the connection mode with the locking portion 200 is not limited, and only the requirement that the embedded block 310 and the mounting block 320 can relatively move and be embedded is met; next, the shape of the wedge groove 160 is set according to the shape of the insert 310.

Second embodiment of quick-mounting base

The quick-mounting seat 10 of the present embodiment is basically the same as the quick-mounting seat 10 of the first embodiment, and is different in that the insert block 310 is fixedly connected to the locking portion 200, the mounting block 320 and the seat body 100 may be integrally formed, and a mounting groove, i.e. a mounting groove, is formed in the seat body 100 by enclosing the two, the mounting groove is used for the insert block 310 to align and clamp, and the shape and direction of the mounting groove are set according to the shape and the movement track of the insert block 310, so that the insert block 310 can align and clamp into the mounting groove after being knocked. Specifically, when the driving portion 400 is triggered to unlock by a key and then knocks the embedded block 310 to move and engage in the mounting groove, the embedded block 310 moves to synchronously drive the locking portion 200 to move toward the clamping portion 500 so as to further lock the locking quick-mounting plate 20 on the base 100.

While the utility model has been described with reference to several exemplary embodiments, it is to be understood that the terminology used is intended to be in the nature of words of description and of limitation. As the present utility model may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (11)

1. A quick-connect mounting, comprising:

a base (100);

the locking part (200) is movably arranged on the base body (100) and is suitable for switching between a locking position and a releasing position, and the locking part (200) is used for fixing the quick-acting plate (20) on the base body (100);

the linkage part (300) is arranged between the base body (100) and the locking part (200) and comprises an embedded block (310) and an installation block (320), the installation block (320) is fixedly connected with the locking part (200), and a clamping gap is arranged between the installation block (320) and the base body (100); the embedded block (310) can move relative to the mounting block (320) to be clamped into the clamping gap;

the driving part (400) is arranged between the base body (100) and the locking part (200), and the driving part (400) can be triggered by a key to knock and clamp the embedded block (310) into the clamping gap so as to lock the quick-mounting plate (20) and maintain the locking part (200) to be stably at a locking position.

2. The quick-mount pad according to claim 1, wherein the quick-mount pad (10) further comprises a first elastic member (600) and a trigger post (800), the first elastic member (600) connecting the driving portion (400) and the pad body (100), the trigger post (800) connecting the driving portion (400) and the pad body (100);

when the locking part (200) is in a release position, the trigger post (800) locks and fixes the driving part (400) on the base body (100), and the first elastic piece (600) accumulates elastic force; when the trigger post (800) is triggered by one key, the trigger post (800) moves and releases the locking of the driving part (400), and the first elastic piece (600) drives the driving part (400) to movably strike the embedded block (310) so as to realize that the locking part (200) is stably at the locking position.

3. The quick-mount pad according to claim 2, wherein the quick-mount pad (10) further comprises a second elastic member (700), the second elastic member (700) connecting the locking portion (200) and the pad body (100); when the locking part (200) is at a release position, the second elastic member (700) accumulates elastic force; when the trigger post (800) is triggered by a key, the second elastic member (700) drives the locking portion (200) to move to the locking position.

4. A quick-mounting seat according to claim 3, wherein the trigger post (800) comprises a trigger lever (810) and a stopping portion (820) which are connected, the driving portion (400) is provided with a limiting groove (411), when the locking portion (200) is in a release position, the stopping portion (820) is clamped in the limiting groove (411) and locks the driving portion (400), and the trigger post (800) protrudes out of the seat body (100); when the trigger lever (810) is pressed, the trigger lever (810) moves and drives the stop part (820) to move out of the limit groove (411), and the driving part (400) is unlocked.

5. The quick-mounting base according to claim 4, wherein the quick-mounting base (10) further comprises a third elastic member (900) provided between the stopper portion (820) and the base body (100), the driving portion (400) being unlocked when the trigger lever (810) is pressed, the third elastic member (900) accumulating an elastic force; when the locking part (200) is in the release position, the third elastic piece (900) drives the stop part (820) to be clamped in the limit groove (411).

6. The quick-mounting seat according to claim 4, wherein the driving part (400) comprises a rotating disc (420) and a handle (430) which are connected with each other, the rotating disc (420) is rotatably connected with the seat body (100), the handle (430) is connected with the rotating disc (420) and extends out of the seat body (100), the rotating disc (420) is provided with a limiting groove (411), the rotating disc (420) is also provided with an avoiding groove (410) for the trigger rod (810) to slide, and the limiting groove (411) is communicated with the avoiding groove (410); the first elastic member (600) is a coil spring (600 a), the coil spring (600 a) connects the rotary disk (420) and the base (100), and the rotary disk (420) can strike the embedded block (310).

7. The quick-mounting seat according to claim 6, wherein the edge of the rotating disc (420) is convexly provided with a striking block (421) and a hook (422), and a protruding block (311) is arranged on one side of the embedded block (310) facing the rotating disc (420); when the rotary disk (420) rotates under the acting force of the coil spring (600 a), the striking block (421) strikes and clamps the embedded block (310) into the clamping gap; when the handle (430) drives the rotating disc (420) to reversely rotate, the clamping hooks (422) are abutted against the protruding blocks (311) and drive the embedded blocks (310) to move out of the clamping gaps.

8. The quick-mounting seat according to claim 7, wherein a chute (150) is arranged between the locking portion (200) and the seat body (100), the extending direction of the chute (150) is inclined to the moving direction of the locking portion (200), the embedded block (310) is slidably connected to the chute (150), the radial dimension of the striking block (421) from the center of the rotary disk (420) is greater than the radial dimension of the trip (422) from the rotary disk (420), and an avoidance area (423) is formed between the striking block (421) and the trip (422); when the rotating disc (420) rotates under the acting force of the coil spring (600 a), the clamping hook (422) bypasses the protruding block (311), the striking block (421) abuts against the embedded block (310), so that the protruding block (311) enters the avoidance area (423) and the protruding block (311) is located on the movement track of the reverse rotation of the clamping hook (422).

9. The quick-mount pad according to claim 8, wherein the linkage (300) further comprises a fourth elastic member (330), the fourth elastic member (330) being located in the chute (150) and having one end abutting the insert block (310); the fourth elastic member (330) accumulates elastic force when the insertion block (310) is inserted into the engagement gap; when the embedded block (310) is moved out of the clamping gap, the elastic force released by the fourth elastic piece (330) drives the protruding block (311) to be away from the motion track of the reverse rotation of the clamping hook (422).

10. The quick-mounting seat according to claim 1, wherein the mounting block (320) is a roller column (320 a), the roller column (320 a) rotates relative to the locking portion (200), the embedded block (310) is provided with an abutment inclined plane, and the driving portion (400) is triggered by a key to abut against the roller column (320 a) and drive the roller column (320 a) to rotate in the process of knocking and clamping the embedded block (310) into the clamping gap.

11. A quick assembly comprising a quick plate (20) and a quick mount (10) according to any one of claims 1 to 10, said quick plate (20) being mounted and locked to said quick mount (10) by said locking portion (200).