CN218064004U - Anchor clamps, clamping device and support - Google Patents

Abstract

The utility model relates to an anchor clamps, clamping device and support relates to electron terminal's auxiliary articles for use technical field, an anchor clamps, a serial communication port, anchor clamps have the clamping part that is used for the first terminal of centre gripping, including at least one formula clamping part that holds in the clamping part of anchor clamps, anchor clamps have been seted up and have been used for holding hold the first chamber of accomodating of formula clamping part, first chamber of accomodating link up the tow sides of anchor clamps, the formula clamping part that holds articulate in anchor clamps, first chamber of accomodating is equipped with the accepting, when the formula clamping part is accomodate, the formula clamping part that holds support and lean on in the accepting. The utility model discloses the clamping part of anchor clamps can be accomodate for anchor clamps occupy the volume when not using less.

Description

Clamp, clamping device and support

Technical Field

The utility model relates to an auxiliary articles for use technical field at electron terminal, concretely relates to anchor clamps, clamping device and support.

Background

The support is a device for supporting the electronic terminal, and when people take a picture, make a call or live broadcast, the support can be placed on the electronic terminal such as a mobile phone.

The support includes bracing piece, installation arm and anchor clamps usually, and the common clamping part of anchor clamps of current support is fixed to be located the installation arm, when not using anchor clamps, and it is great to occupy the volume.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide an anchor clamps, a serial communication port, anchor clamps have the clamping part that is used for the first terminal of centre gripping, including at least one formula clamping part that holds in the clamping part of anchor clamps, anchor clamps are seted up and are used for holding hold the first chamber of accomodating of formula clamping part, first chamber of accomodating link up the tow sides of anchor clamps, the formula clamping part that holds articulate in anchor clamps, first chamber of accomodating is equipped with the accepting part, when the formula clamping part that holds is accomodate, the formula clamping part that holds support lean on in the accepting part.

Preferably, the first accommodating chamber has an abutting wall, the accommodating type clamping portion abuts against the abutting wall when clamping the first terminal, and the first accommodating chamber is provided with a receiving portion, and the accommodating type clamping portion abuts against the receiving portion when accommodating.

Preferably, the receiving portion is located on a side wall of the first receiving cavity away from the abutting wall.

Preferably, anchor clamps include first splint and with first splint elasticity telescopic connection's second splint, first splint with the second splint set up side by side, first splint with the department of meeting of second splint is cut apart first chamber of accomodating, the formula that holds clamping part articulate in the second splint, the second splint are provided with the accepting part.

Preferably, the clamp is provided with a first notch which is convenient for shifting the accommodating type clamping part, and the first notch is communicated with the first accommodating cavity.

Preferably, the accommodating type clamping portion is provided with a second notch, and when the accommodating type clamping portion is accommodated, the second notch corresponds to the first notch.

Preferably, the fixture is provided with a poking opening, the poking opening penetrates from the side wall of the fixture to the first accommodating cavity, the accommodating clamping portion is provided with an extending portion, and when the accommodating clamping portion is accommodated, the extending portion extends out of the fixture through the poking opening.

Preferably, when the female clip portion is received, a back surface of the female clip portion is flush with a top surface of the clip.

The embodiment of the utility model provides a still provide a clamping device, including the installation arm with anchor clamps, anchor clamps are located the installation arm.

The embodiment of the utility model provides a support is still provided, including the support with clamping device, clamping device with the support is connected.

After the technical scheme is adopted, the utility model discloses beneficial effect does: the clamping part of the clamp provided by the embodiment of the utility model can be stored, so that the clamp occupies a smaller volume when not in use; the receiving part is arranged in the first accommodating cavity of the clamp, and after the accommodating type clamping part is accommodated, the position of the accommodating type clamping part in the first accommodating cavity is determined, so that the shape of the clamp is stable after the clamp is accommodated; moreover, the receiving part is arranged, so that the accommodating type clamping part cannot turn over in the first accommodating cavity when being accommodated, and the clamp is more convenient to use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an implementation manner of a clamping device according to an embodiment of the present invention;

FIG. 2 is a schematic view of the first clamping space formed by the clamping device shown in FIG. 1;

FIG. 3 is a schematic view of the construction of the mounting arm in the clamping arrangement shown in FIG. 1;

FIG. 4 is a schematic view of the clamp and mounting member of the clamping device shown in FIG. 1;

FIG. 5 is an exploded view of the clamp and mount shown in FIG. 4;

FIG. 6 is a schematic view of the structure of the mount and the first sliding portion of the jig and the fixture shown in FIG. 4;

FIG. 7 is a schematic view of the first damping portion of the clamp and mount shown in FIG. 4;

FIG. 8 is a front view of the clamping device shown in FIG. 1;

FIG. 9 isbase:Sub>A cross-sectional view of the clamping device shown in FIG. 8 taken along section line A-A;

FIG. 10 is an exploded view of the mounting arm of the clamp device shown in FIG. 1;

FIG. 11 is an enlarged view of the structure at B in FIG. 10;

FIG. 12 is an exploded schematic view of another implementation of the mounting arm shown in FIG. 10;

FIG. 13 is a respective schematic view of another angle of the mounting arm shown in FIG. 12;

FIG. 14 is an exploded schematic view of another implementation of the mounting arm shown in FIG. 10;

FIG. 15 is an exploded schematic view of another implementation of the mounting arm shown in FIG. 10;

FIG. 16 is a schematic illustration of a structure of another implementation of the mounting arm shown in FIG. 10;

FIG. 17 is an exploded view of the mounting arm shown in FIG. 16;

FIG. 18 is a schematic view of the structure of the slide plate of the mounting arm shown in FIG. 16;

FIG. 19 is a schematic view of the clamping device of FIG. 1 in a stowed position;

FIG. 20 is a schematic structural view of a clamping device according to another implementation;

FIG. 21 is a schematic view of one of the mounting arrangements of the second clamp and the mounting arm;

FIG. 22 is a schematic diagram of another implementation of a slide and mounting body for mounting a first fixture in the clamping device of FIG. 1;

FIG. 23 is a schematic diagram of another implementation of a slide and mounting body for mounting a first fixture in the clamping device of FIG. 1;

FIG. 24 is a cross-sectional view of the structure shown in FIG. 23 taken along line C-C;

FIG. 25 is a schematic structural view of another implementation of a mounting arm;

FIG. 26 is a schematic structural view of another variation of the mounting arm shown in FIG. 25;

FIG. 27 is an exploded view of the mounting arm shown in FIG. 26;

FIG. 28 is a schematic view of the first clamp and mount assembled with the mounting arm of FIG. 26;

FIG. 29 is an exploded view of the first clamp and mount shown in FIG. 28;

FIG. 30 is a schematic structural view of a clamping device according to another implementation;

FIG. 31 is a schematic view showing the structure of a jig in the holding apparatus shown in FIG. 1;

fig. 32 is a schematic structural diagram of an implementation manner of a bracket according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the present application, the terms "mounted", "connected", "fixed", "provided", "damped sliding", "damped rotating" and "hinged" are to be understood in a broad sense unless expressly stated or limited otherwise.

The embodiment of the utility model provides a clamping device 1 is proposed, as shown in fig. 1, this clamping device 1 includes: a mounting arm 100 and two clamps 200, wherein the clamps 200 are arranged on the mounting arm 100. The jig 200 has a holding part 210 for holding the first terminal, and at least one pair of holding parts 210 on different jigs 200 may form a first holding space 201.

In one implementation of the embodiment of the present invention, as shown in fig. 1, the mounting arm 100 is a plate-shaped structure extending along a straight line, and the mounting arm 100 is a thin plate, and the clamp 200 is a plate-shaped structure extending along a straight line, so that the clamping device 1 is compact in structure.

The utility model discloses in the implementation of the embodiment, first terminal is the cell-phone, and first centre gripping space 201 is used for centre gripping second terminal or from the first terminal of different side centre grippings, and the second terminal is dull and stereotyped. In the embodiment of the present invention, the first clamping space 201 is used for clamping a flat plate or a mobile phone clamped from the top end to the tail end.

In some alternative implementations, the mounting arm 100 may also have any shape such as a strip-shaped structure, a column-shaped structure, a block-shaped structure, a sheet-shaped structure, and the like, and the extending direction thereof may be a straight line, an arc, an arbitrary curve, or the like. For example, the mounting arm 100 may be in the form of a bent rod.

In some alternative implementations, the clamp 200 may have any shape such as a strip structure, a column structure, a block structure, a sheet structure, and the like, and the extending direction may be a straight line, an arc, or any curve.

In some alternative implementations, the number of clamps 200 is not limited to two, and may be three, four, five, etc.

In some optional implementations, the first terminal may also be another communication terminal (e.g., a mobile phone, an intercom, a tablet, etc.), a display terminal (e.g., a liquid crystal display terminal such as an electronic album and an electronic dictionary, an ink screen display terminal such as an electronic paper book, etc.), a writing terminal (e.g., an electronic drawing board, a handwriting input board, etc.), an audio playing terminal (e.g., a bluetooth speaker, an MP3, etc.), or a non-electronic terminal (e.g., a drawing board, a writing board, etc.).

In some optional implementation manners, the second terminal may be the communication terminal, the display terminal, the writing terminal, the audio playing terminal, or a non-electronic terminal.

In an implementation manner of the embodiment of the present invention, referring to fig. 1 to 3, the two clamps 200 are two first clamps 200a slidably disposed on the mounting arm 100, and each first clamp 200a has two clamping portions 210. The first clamp 200a is slidably mounted on the mounting arm 100, and the first clamp 200a is used to form a first clamping space 201. The mounting arm 100 has a first limiting member 110, and when the first clamp 200a forms the first clamping space 201, the first limiting member 110 provides a supporting force for the first clamp 200a.

In some alternative implementations, the number of the first clamps 200a is at least one, the number of the first clamps 200a may be 1, 3, 5, etc., and of all the clamps 200, the first clamps 200a are slidably mounted to the mounting arm 100, and other clamps except the first clamps 200a may be disposed on the mounting arm 100 by adopting other mounting manners, including any one of fixing, rotating, sliding, damped rotating, damped sliding, etc., and combinations thereof.

In some optional implementations, when the first clamping space 201 is formed, the first clamp 200 may directly abut against the first limiting member 110, or may abut against the first limiting member 110 through an intermediate member.

In some alternative implementations, the first limiting member 110 may be disposed at any position of the mounting arm 100, the first limiting member 110 may have a block structure, a strip structure, a sheet structure, a plate structure, a column structure, a bump structure, or the like, and the first limiting member 110 may also refer to a surface of a certain structure, for example, a sidewall of a certain structure, and an end surface of a certain structure.

In some alternative implementations, the first clamp 200a can be slidably mounted to the mounting arm 100 directly, or can be slidably mounted to the mounting arm 100 via an intermediate member.

In one implementation of the embodiment of the present invention, as shown in fig. 4 to 9, the clamping device 1 further includes a mounting member 300 for mounting the first clamp 200a, and the mounting member 300 is disposed between the mounting arm 100 and the first clamp 200a. The mounting member 300 is slidably mounted on the mounting arm 100 in a damping manner to hold the first clamp 200a at any position along the sliding direction thereof, and the mounting member 300 is advantageously provided to facilitate the installation of wearing parts such as a sliding portion, a damping portion, etc. thereon, and also facilitates the manufacturing and mounting thereof. When the first clamping space 201 is formed, the mounting member 300 or the first clamp 200a abuts against the first limiting member 110.

Specifically, the sliding damping force of the mount 300 and the mounting arm 100 may be such that the first clamp 200a is held at any position on the mounting arm 100 in the sliding direction thereof, the sliding damping force being equal to or greater than the component force of the weight of the first clamp 200a in the sliding direction thereof. Generally, to facilitate the user to adjust the position of the first clamp 200a, the sliding damping force is less than or equal to 1000N, for example, the sliding damping force may be 200N, 100N, 50N, 20N, 10N, 5N, 2N, etc.

In one implementation of the embodiment of the present invention, when the first clamping space 201 is formed, the mounting member 300 is supported on the first limiting member 110.

In some alternative implementations, when the first clamping space 201 is formed, the first clamp 200a abuts against the first limiting member 110.

In some alternative implementations, mount 300 may be integrally formed and mount 300 is damping slidably mounted to mounting arm 100.

In one implementation of the embodiment of the present invention, as shown in fig. 3 to 9, the mounting member 300 includes a mounting platform 310 and a first sliding portion 320 disposed on the mounting bar 310, the mounting arm 100 is provided with a second sliding portion 120, the mounting platform 310 is connected to the first clamp 200a, and the first sliding portion 320 is slidably mounted to the second sliding portion 120.

In some alternative implementations, the first sliding portion 320 may be a sliding block or a sliding groove, and the second sliding portion 120 may be a sliding groove or a guiding rail adapted to the first sliding portion 320.

In one implementation of the embodiment of the present invention, referring to fig. 3 to 9, the mounting platform 310 is disposed on the side close to the first fixture 200a, and the first sliding portion 320 is disposed on the mounting platform 310 on the side far from the first fixture 200a.

In some alternative implementations, the mounting platform 310 may be disposed at any position of the first fixture 200a, for example, the mounting platform 310 may be extended to connect to the front surface of the first fixture 200a; the first sliding portion 320 may be provided at any position of the mounting table 310.

In an implementation manner of the embodiment of the present invention, referring to fig. 3 to 9, the mounting member 300 further includes a first damping portion 321 disposed on the first sliding portion 320, the second sliding portion 120 is disposed on the first sliding slot 101 of the mounting arm 100, and the first damping portion 321 is tightly fitted to the inner wall of the first sliding slot 101 to provide the first clamp 200a to be held at any position of the mounting arm 100 along the sliding direction thereof. The tight fit is an interference fit, and the tight fit means that a joint of the first damping portion 321 and an inner wall of the first sliding chute 101 has a pressing force.

Specifically, referring to fig. 3 to 9, the number of the first sliding grooves 101 is one, the first sliding grooves 101 extend along a straight line, the first sliding grooves 101 are disposed on one side of the mounting arm 100 close to the first fixture 200a, obviously, the mounting table 310 is adapted to the shape of the first sliding grooves 101, the mounting table 310 is not easy to be removed from the first sliding grooves 310, and the first sliding grooves 101 are grooves with a reduced cross section, such as T-shaped grooves, dovetail grooves, trapezoidal grooves, major arc grooves, and the like.

In other alternative implementations, the first runner 101 may extend along a curve (arc, wavy line, broken line, etc.), which may be a planar curve or a spatial curve.

In other alternative implementations, the first damping portion 321 may be disposed on the first sliding portion 320 in various manners, the first damping portion 321 is integrally disposed on the first sliding portion 320, the first damping portion 321 is fixedly disposed on the first sliding portion 320, the first damping portion 321 is detachably disposed on the first sliding portion 320, and the first damping portion 321 is detachably disposed on the first sliding portion 320.

In some other alternative implementations, the first damping portion 321 may also be provided on the second sliding portion 120 of the mounting arm 100;

in other alternative implementations, the first damping portion 321 is provided at both the second sliding portion 120 of the mounting arm 100 and the first sliding portion 320 of the mounting table 310.

In an implementation manner of the embodiment of the present invention, referring to fig. 3 to 9, the first sliding portion 320 has an installation opening 301, the first damping portion 321 is installed in the installation opening 301, and the first damping portion 321 is located between the first sliding portion 320 and the first chute 101. The advantage of providing the mounting opening 301 is to facilitate mounting the first damping portion 321, the first damping portion 321 is separable from the first sliding portion 320, and different materials can be selected for the first damping portion 321, and the first damping portion 321 can be made of silicone.

Specifically, as shown in fig. 3 to 9, the mounting opening 301 is provided on the mounting member 300 on the side away from the jig 200, and the first damping portion 321 is caught in the mounting opening 301.

In other alternative implementations, the mounting platform 310 is integrally connected, fixedly connected, removably connected, movably connected, connected via an intermediary member, detachably connected, etc. to the first fixture 200a.

In an implementation manner of the embodiment of the present invention, referring to fig. 3-9, the mounting member 300 further includes a connecting shaft 330, the mounting member 300 is provided with a connecting hole 302a communicated with the mounting opening 301, the connecting shaft 330 is inserted into the connecting hole 302a, the connecting shaft 330 is used for connecting the first clamp 200a and the mounting member 300, and the first clamp 200a and the mounting platform 310 are installed in a damping rotation manner. Specifically, the connection shaft 330 is assembled with the first jig 200a through the mounting table 310, thereby achieving connection of the first jig 200a with the mounting table 310. The connecting shaft 330 plays a role in connection, and the connecting shaft 330 may be of any rod-shaped structure, such as a T-shaped rod-shaped structure or an i-shaped rod-shaped structure.

The advantage of providing the connection hole 302a is to facilitate the mounting of the mounting stage 310 to the first fixture 200a; the connection hole 302a communicates with the mounting opening 301, the connection hole 302a receives the connection shaft 330, and the mounting opening 301 receives the first damping portion 321, so that the structure of the mounting member 300 is more compact; the mounting opening 301 also serves as an operation allowance space when the connecting shaft 330 is mounted when the mounting member 300 is assembled.

In other alternative implementations, the connecting shaft 330 is integrally connected, fixedly connected, detachably connected, movably connected, connected via an intermediate member, detachably connected with the first clamp 200a. In some alternative implementations, the connection hole 302 may be provided at other portions of the mounting stage 310.

In an implementation manner of the embodiment of the present invention, referring to fig. 3 to 9, the first damping portion 321 is convexly provided with a damping strip 321a, and the damping strip 321a is tightly fitted with the inner wall of the first sliding groove 101. Specifically, the first damping portion 321 is located on one side of the first damping portion 321 close to the inner wall of the first sliding chute 101, two groups of damping strips 321a are symmetrically arranged, and three damping strips 321a are arranged in each group. The damping bar 321a is provided to avoid an excessive damping force between the first damping portion 321 and the first chute 101. Meanwhile, the average thickness of the first damping portion 321 is made smaller, and the first sliding portion 320 and the first damping portion 321 are easily installed in the first chute 101.

In other alternative implementations, the damping surface of the first damping portion 321 is a plane or an arc surface.

In an implementation manner of the embodiment of the present invention, as shown in fig. 5, fig. 7 and fig. 9, in order to make the first damping portion 321 and the mounting opening 301 better engage with each other, and the first damping portion 321 is not easily separated from the mounting opening 301 when sliding, the first damping portion 321 is integrally set to be a stepped structure, the mounting opening 301 is set to be a stepped opening adapted to the first damping portion 321, and meanwhile, the mounting table 310 is provided with a corresponding accommodating groove 302b for accommodating the end of the connecting shaft 330. The first damper portion 321 is provided in a stepped structure, and is also easy to mount. The installation of the receiving groove 302b is advantageous in that the structure of the mounting member 300 is more compact.

In some alternative implementations, the first damping part 321 may have a sheet structure, a bar structure, a block structure, a plate structure, or the like.

In one implementation manner of the embodiment of the present invention, referring to fig. 5, 7 and 9, the first damping portion 321 further includes a damping sheet 321b and a boss 321c, and the damping sheet 321b and the boss 321 integrally form a stepped structure. The boss 321c improves the structural strength of the whole first damping part 321, and avoids the situation that the damping sheet 321b is piled up in the sliding process. Specifically, the damping bar 321a is disposed on the damping plate 321b on a side away from the boss 321c and is integrally formed with the damping plate 321b, and the boss 321c is also integrally connected to the non-damping surface of the damping plate 321 b.

In some alternative implementations, the boss 321c and the damping plate 321b can be fixedly connected, movably connected, detachably connected, connected via an intermediate member, and the like.

In one implementation of the embodiment of the present invention, as shown in fig. 5, 6 and 9, the first fixture 200a is rotatably assembled with the mounting platform 310 in a damping manner. Specifically, a first damping ring 220 is arranged on the first clamp 200a, a second damping ring 311 is arranged on the mounting table 310, the first damping ring 220 is sleeved on the second damping ring 311, a damping rubber ring 312 is tightly fitted between the first damping ring 220 and the second damping ring 311, and the damping rubber ring 312 is used for realizing damping rotation assembly between the first clamp 200a and the mounting table 310. The coupling shaft 330 is assembled with the first jig 200a through the first damping ring 220, the second damping ring 311 and the damping rubber 312.

The utility model discloses in the implementation of the embodiment, establish through mutual cover of first damping ring 220 and second damping ring 311, and first damping ring 220 and second damping ring 311 can also wrap around connecting axle 330 simultaneously for the structure of installed part 300 is more compact, has also made things convenient for the installation of installed part 300, first anchor clamps 200a simultaneously. And other damping modes require extra space for arrangement.

In some other optional implementations, the second damping ring 311 is sleeved on the first damping ring 220.

In other alternative implementations, the interference fit of the first damping ring 220 and the second damping ring 311 may enable the first clamp 200a to be rotationally mounted with the mounting block 310.

In other alternative implementations, the direct interference fit of the first clamp 200a with the mounting block 310 may enable the damped rotational mounting of the first clamp 200a with the mounting block 310. The damping rotation of the first clamp 200a and the mounting platform 310 may be realized by other damping members, which may be annular damping air rods, damping screws, damping springs, and the like.

In one implementation of the embodiment of the present invention, as shown in fig. 5, the first clamp 200a is convexly provided with a connection column 230, and the first damping ring 220 is wrapped around the connection column 230. The connecting shaft 330 is a screw, and the screw is threadedly connected to the connecting post 230. Wrapping the first damping ring 220 around the attachment post 230 allows for a more compact structure between the first clamp 200a and the mount 300. The advantage of providing the connection post 230 is that it is convenient to select a corresponding structure or material for the connection post 230. When the first clamp 200a rotates, the screw rotates synchronously with the first clamp, and the screw does not fall off the connecting post 230 due to the rotation of the first clamp 200a.

In an implementation of the embodiment of the present invention, the periphery of the connecting column 230 can be provided with the reinforcing rib 231, thereby improving the structural strength of the connecting column 230. The connecting shaft 330 is a screw, so that it is easy to install.

In other alternative implementations, the connecting shaft 330 may be directly threadedly connected with the first clamp 200a.

In an implementation manner of the embodiment of the present invention, the back surface of the first fixture 200a is further provided with a holding groove 202, and the second damping ring 311 is sleeved in the first damping ring 220 and is all held in the holding groove 202. Since the back surface of the first clamp 200a is provided with the receiving groove 202, the back surface of the first clamp 200a is brought close to the mounting arm 100. The accommodating groove 202 arranged in this way enables the overall structure of the clamping device 1 to be more compact, and reduces the overall occupied volume of the clamping device 1.

In some alternative implementations, referring to fig. 10, the connecting shaft 330 may also be a rivet 331. Accordingly, the first clamp 200a is provided with a riveting hole 205, and the rivet 331 is riveted with the first clamp 200a through the connecting hole 302a and the riveting hole 205.

In some alternative implementations, the first clamp 200a is provided with a rivet post that is riveted through a connection hole of the mounting table 310. Or the mounting table 310 is provided with a riveting column, the first clamp 200a is provided with a riveting hole, and the riveting column penetrates through the riveting hole to be riveted with the first clamp 200a.

In one implementation of the embodiment of the present invention, as shown in fig. 3 and 10, the mounting arm 100 includes: a mounting body 130 and a slide plate 140. A slide plate 140 is mounted on the mounting body 130, and the first chute 101 is provided on the slide plate 140. The mounting arm 100 is arranged in the structural form of the mounting main body 130 and the sliding plate 140, on one hand, wear-resistant materials are selected for the material of the sliding plate 140 for convenience of mounting and manufacturing of the mounting arm 100, on the other hand, the service life of the sliding plate 140 is ensured, and only the wear-resistant materials are required to be adopted for the sliding plate 140 instead of the whole mounting arm 100, so that the cost is saved. In the embodiment of the present invention, the sliding plate 140 can be formed by extrusion of aluminum alloy, and the mounting body 130 is formed by injection molding of plastic.

In other alternative implementations, the mounting arm 100 may be a unitary structure.

In other alternative implementations, the mounting body 130 and the sled 140 are fixedly mounted, removably mounted, mounted via an intermediary, movably mounted, and the like.

In other alternative implementations, the second sliding portion 120 is a sliding protrusion provided on the sliding plate 140.

In one implementation of the embodiment of the present invention, referring to fig. 3 and 10, the mounting body 130 is a shell-shaped structure having the mounting space 102, and the sliding plate 140 is mounted in the mounting space 102. The mounting body 130 is provided in a shell-like structure, which facilitates manufacturing while saving costs. Specifically, the shape of the installation space 102 matches the shape of the slide plate 140.

In some alternative implementations, the mounting body 130 may be a plate-shaped structure, a block-shaped structure, a sheet-shaped structure, a column-shaped structure, a strip-shaped structure, and the like. The mounting body 130 may extend along a straight line or may extend along an arc, a wavy line or a broken line.

In one implementation of the embodiment of the present invention, as shown in fig. 10, a rib 131 is disposed in the installation space 102, and the sliding plate 140 abuts against the rib 131. The advantage of this setting is, has strengthened the structural strength of installation main part 130, has saved the cost of manufacture of installation main part 130, still is used for supporting slide 140 simultaneously, improves slide 140's stability.

Specifically, the number of the ribs 131 is two, and the two ribs 131 are respectively near both ends of the mounting body 130.

In other alternative implementations, the rib 131 may be disposed at other portions of the mounting body 130, such as at an outer wall of the mounting body 130. In other alternative implementations, the rib 131 is spaced from the sled 140. In other alternative implementations, the mounting body 130 may support the sliding plate 140 using other structures, such as a column structure, a block structure, a sheet structure, a snap structure, etc.

In an implementation manner of the embodiment of the present invention, as shown in fig. 10, the sliding plate 140 is provided with a first clamping portion 141, and the mounting main body 130 is provided with a second clamping portion 132. The mounting body 130 and the slide plate 140 are engaged with each other by a first engaging portion 141 and a second engaging portion 132. The advantage of using a snap-fit connection is that it is convenient to disassemble and assemble the slide plate 140.

In some alternative implementations, the first clamping portion 141 may be a groove or a protrusion, and the second clamping portion 132 may be a protrusion or a groove adapted to the first clamping portion.

In some alternative implementations, the first clamping portion 141 may be disposed on a side wall or a bottom wall of the sliding plate 140, and the second clamping portion 132 is disposed on a side wall or a bottom wall of the installation space 102, respectively.

In an implementation manner of the embodiment of the present invention, as shown in fig. 10, the sliding plate 140 is a whole stretching body, the first clamping portion 141 is the clamping grooves 103 respectively disposed on the two opposite side walls of the sliding plate 140, and the clamping grooves 103 extend along the stretching direction of the sliding plate 140. The second clamping portion 132 is a clamping protrusion 133 in the installation space 102, the clamping protrusion 133 is matched with the clamping groove 103, and the clamping protrusion 133 is used for clamping and assembling with the clamping groove 103. Specifically, the stretched body refers to a three-dimensional body formed by stretching a section along a line.

The sliding plate 140 is provided as a stretching body, which facilitates manufacturing and facilitates the installation of the clamping groove 103 in a stretching shape.

In other alternative implementations, the shape of the clamping groove 103 may be a v-shaped groove 21274, an L-shaped groove, a trapezoidal groove, a triangular groove, etc., and the clamping protrusion 133 is a shape adapted to the clamping groove 103.

In other alternative implementations, the sliding plate 140 may have any shape, and the sliding plate 140 may extend along a straight line or along a curved line, such as a curved plate, a wavy plate, etc.

The utility model discloses in an implementation of embodiment, as shown in FIG. 10, the protruding two at least spacing archs 134 that are equipped with of installation space 102 inner wall, the diapire of slide 140 is concave to be equipped with two spacing grooves 104, and spacing protruding 134 card is held in spacing groove 104, and two spacing grooves 104 set up with two adjacent joint grooves 103 respectively to play limiting displacement and supporting role to slide 140. Obviously, in the process of assembling the slide plate 140 to the mounting body 130, the catching protrusion 133 is caught in the catching groove 130, and the position restricting protrusion 134 is caught in the position restricting groove 104.

Specifically, the limiting groove 104 is adjacent to the clamping groove 103, and because the opening direction of the limiting groove 104 is located on the bottom wall of the sliding plate 140, the opening direction of the clamping groove 103 is located on the side wall of the sliding plate 140, and an "L" shaped bending structure is formed between the limiting groove 104 and the clamping groove 103, so that the structural strength of the limiting groove 104 or the clamping groove 103 cannot be reduced by adjacent arrangement of the limiting groove 104 and the clamping groove 103, and meanwhile, the limiting groove 104 and the clamping groove 103 are adjacent to each other so that the sliding plate 140 is compact in structure. The sliding plate 140 is provided with the limiting groove 104 and the clamping groove 103 at the same time, so that the material cost is saved.

In an implementation manner of the embodiment of the present invention, as shown in fig. 10, among all the limiting protrusions 134, at least one limiting protrusion 134 is integrally connected with the rib 131, so that the structure of the mounting main body 130 is further improved.

In an implementation manner of the embodiment of the present invention, as shown in fig. 11, the transition portion of the limiting groove 104 and the joint groove 103 forms the slip surface 105, and when the sliding plate 140 is installed, the joint protrusion 133 slides over the slip surface 105 and then slides into the joint groove 103. Wherein the slip plane 105 is a slope.

In other alternative implementations, the slip plane 105 may be a smooth curved surface.

In an implementation manner of the embodiment of the present invention, as shown in fig. 10 and fig. 11, the installation main body 130 is integrally formed, the first limiting member 110 is disposed on the installation main body 130, the first limiting member 110 is a limiting sidewall 102a of the installation space 102, and the limiting sidewall 102a is close to an end of the first sliding groove 101. When the clamping device 1 forms the first clamping space 201, the first clamp 200a forming the first clamping space 201 is abutted against the limiting side wall 102a through the mounting member 300. This provides the advantage that the mounting arm 100 is simple in construction and easy to manufacture, and the mounting body 130 itself defines a stop for the mounting member 300.

In other alternative implementations, when the clamping device 1 forms the first clamping space 201, the first clamp 200a forming the first clamping space 201 directly abuts against the limiting sidewall 102a.

In other alternative implementations, referring to fig. 18, the first limiting member 110 may be disposed on the sliding plate 140 in any manner. In this implementation, the first limiting member 110 is disposed on the sliding plate 140 in a protruding manner, the first limiting member 110 is located at the beginning end and the terminating end of the first sliding slot 101, and the first limiting member 110 and the sliding plate 140 are integrally formed.

In some alternative implementations, referring to fig. 12 and 13, an end of the mounting main body 130 is provided with a mounting notch 106a, the first limiting member 110 is detachably mounted in the mounting notch 106a, obviously, the mounting notch 106a is communicated with the mounting space 102, the first limiting member 110 is adapted to the shape of the mounting notch 106a, and the first limiting member 110 closes the mounting notch 106a. The advantage of the first limiting member 110 being detachably mounted is that it is easy to mount, and it is convenient to select a suitable durable material for the first limiting member 110, and it is not necessary to select a durable material for the whole mounting arm 100, so that the cost is saved.

Specifically, the bottom wall of the mounting body 130 is provided with a clamping hole 106b, and the first limiting member 110 is provided with a clamping head 111 assembled with the clamping hole 106 b. The snap joint 111 is formed by extending the first limiting member 110. More specifically, the clamping head 111 is located between the sliding plate 140 and the mounting body 130, and the sliding plate 140 is pressed against the clamping head 111, so that the clamping head 111 is not easy to fall off from the clamping hole 106b, and the structure of the mounting arm 100 is more compact.

In other alternative implementations, the first limiting member 110 can be detachably mounted to the mounting notch 106a by any method, such as a snap-fit connection, a fastener connection, and the like.

In other alternative implementations, the first limiting member 110 can be mounted to the mounting notch 106a by any method, such as fixed mounting, movable mounting, mounting via an intermediate member, and the like.

In some alternative implementations, the mounting notch 106a may be disposed at other positions of the mounting body 130, the mounting notch 106a may be located at the back of the mounting body 130, and the mounting notch 106a may be located away from the end of the mounting body 130.

In some alternative implementations, referring to fig. 14, the sliding plate 140 may be inserted into the installation space 102 from the installation notch 106a, specifically, the width of the installation notch 106a is adapted to the width of the sliding plate 140 or the installation space 102 (or the width of the installation notch 106a is greater than the width of the installation space 102), the plurality of catching protrusions 133 are all arranged along the insertion direction of the sliding plate 140, the plurality of limiting protrusions 134 are all arranged along the insertion direction of the sliding plate 140, and the catching groove 103 and the limiting groove 104 extend along the insertion direction of the sliding plate 140. In this implementation, the slide plate 140 may be mounted to the mounting body 130 by a snap-fit or may be mounted to the mounting body 140 by an insertion. In this implementation, the first limiting member 110 can be mounted to the mounting notch 106a by any method, such as screw connection, snap connection, glue connection, and the like.

In some optional implementations, referring to fig. 15, an end of the mounting main body 130 is provided with a mounting notch 106a, the first limiting member 110 is detachably mounted in the mounting notch 106a, the sliding plate 140 is provided with a first insertion portion 143, the mounting main body 130 is provided with a second insertion portion 135 matched with the first insertion portion 143, and the first insertion portion 143 is inserted into the second insertion portion 135. The first mating portion 143 may be a groove or a protrusion, and the second mating portion 135 may be a protrusion or a groove that is matched with the first mating portion 143. In this implementation, the first insertion portion 143 is two groove-shaped structures respectively disposed on two opposite sidewalls of the sliding plate 140, and the second insertion portion 135 is two protrusion structures respectively disposed on two opposite sidewalls of the installation space 102. In this implementation, the first limiting member 110 can be mounted to the mounting notch 106a by any method, such as screw connection, snap connection, glue connection, and the like.

In some alternative implementations, referring to fig. 16-18, the mounting arm 100 further includes a cover plate 150, the cover plate 150 is mounted to the mounting body 130, the cover plate 150 surrounds the mounting body 130 to form the mounting space 102, and the cover plate 150 has a sliding opening 101a corresponding to the first sliding groove 101. This arrangement has the advantage of enclosing the sliding plate 140 in the installation space 102, so that the installation arm 100 forms a complete housing, on one hand, the installation arm 100 is more beautiful and uniform in style, and on the other hand, the sealing plate 150 can fix the sliding plate 140 and prevent it from falling out of the installation space 102.

In one implementation of the embodiment of the present invention, referring to fig. 19, the mounting arm 100 is a long-strip-shaped plate structure, the first fixture 200a is a plate structure with a width corresponding to the mounting arm 100, the two first fixtures 200a are all located on the same side of the mounting arm 100, and when the clamping device 1 is in the storage state, the whole of the two first fixtures 200a is aligned with the edge of the mounting arm 100.

In some alternative implementations, the at least two clamps 200 further include at least one second clamp 200b, the second clamp 200b is disposed on the mounting arm 100, and the second clamp 200b can be disposed on the mounting arm 100 in any manner.

In some alternative implementations, the second clamp 200b is rotatably mounted to the mounting arm 100 in a damped manner, and the second clamp 200b can be rotatably mounted to the mounting arm 100 in any manner.

In some alternative implementations, the mounting arm 100 is in the form of an elongated plate-like structure, and the first and second clamps 200a and 200b are each in the form of a plate-like structure having a width corresponding to the width of the mounting arm 100, and the entirety of the first and second clamps 200a and 200b is aligned with the edge of the mounting arm when the clamping device is in the stowed position.

In one implementation manner of the embodiment of the present invention, referring to fig. 12, the number of the first sliding grooves 101 is one, and the first sliding grooves 101 are disposed on the front surface of the sliding plate 140.

In some alternative implementations, referring to fig. 1 and 25, the clamping device 1 includes a sliding plate 140 and two first clamps 200a, the first clamps 200a are used for clamping the first terminal, the sliding plate 140 of the mounting arm 100 is provided with a second sliding slot 101b for sliding one first clamp 200a, the sliding plate 140 is provided with a first sliding slot 101 for sliding the other first clamp 200a, and the first sliding slot 101 and the second sliding slot 101b are respectively arranged on the front and back sides of the sliding plate 140. This provides the advantage that the first clamp 200a can be disposed on both the first slide slot 101 and the second slide slot 101b, so that both the front and back sides of the mounting arm 100 can clamp the first terminal.

Further, the clamping device 1 comprises a mounting arm 100, the mounting arm 100 comprises a mounting body 130 and a sliding plate 140, and the sliding plate 140 is mounted to the mounting body 130.

In some alternative implementations, referring to fig. 23 and 24, the end of the mounting arm 100 is provided with a transition groove 101c, the transition groove 101c communicates the first slide groove 101 and the second slide groove 101b, when the first clamp 200a is slidably mounted to the first slide groove 101, the first clamp 200a can slide to the second slide groove 101b through the transition groove 101c, and when the first clamp 200a is slidably mounted to the second slide groove 101b, the first clamp 200a in the second slide groove 101b can slide to the first slide groove 101 through the transition groove 101 c. The advantage of this setting is that conveniently adjust the positive and negative orientation of the first terminal of first anchor clamps 200a to can realize the angle of use of first terminal, make first terminal adaptation different application scenarios. In this embodiment, the transition groove 101c is provided in the mounting body 130, and the first and second sliding grooves 101 and 101b are provided on the front and rear surfaces of the sliding plate 140, respectively.

In some alternative implementations, referring to fig. 25 or 26, the number of the second sliding portions 120 of the mounting arm 100 is two, two second sliding portions 120 are respectively disposed on two opposite sidewalls of the mounting arm 100, and obviously, the two second sliding portions 120 are disposed in parallel. This provides the advantage of smoother sliding of the first clamp 200a.

In some alternative implementations, referring to fig. 25, the second sliding part 120 is a guide rail, and obviously, the first sliding part 320 is a guide groove adapted to the guide rail. The shape of the guide groove can be' 21274.

In some alternative implementations, referring to fig. 26, the second sliding portion 120 is a second sliding slot 108a, the first sliding portion 320 is two sliding protrusions 322, and the two sliding protrusions 322 are slidably mounted in the two second sliding slots 108a, respectively.

In some alternative implementations, referring to fig. 27 and 28, the mounting arm 100 includes a mounting main body 130 and a sliding plate 140, the sliding plate 140 is mounted on the mounting main body 130, the second sliding portion 120 may be disposed on a side wall of the mounting main body 130 or the sliding plate 140 (or the second sliding portion 120 is formed by the mounting main body 130 and the side wall of the sliding plate 140), two connecting arms 313 are formed by extending from the mounting table 310, and one end of the connecting arm 313 away from the mounting table 310 is bent to form the first sliding portion 320.

In some alternative implementations, referring to fig. 29, the mount 300 further includes a first damping portion 314 disposed on the mounting platform 310, the first damping portion 314 being in close fit with the sled 140 to provide a damping force to hold the first clamp 200a in any position.

In some alternative implementations, referring to fig. 26, the front face of the skid plate 140 is recessed to form the damping slot 108b. This has the advantage that the mounting arm 100 is more compact. And the damping member is provided separately from the sliding member to improve the durability of the respective members, so that the structure of the mounting member 300 is simpler.

In some optional implementations, referring to fig. 29, the mounting member 300 further includes a connecting shaft 332, the mounting platform 310 is provided with a connecting hole 302b, the connecting shaft 332 is inserted into the connecting hole 302b, the connecting shaft 332 is used for connecting the first clamp 200a and the mounting platform 310, and the first clamp 200a and the mounting platform 310 are mounted in a damping rotation manner.

In some optional implementations, referring to fig. 29, the mounting member 300 further includes a damping rubber ring 333, the back surface of the first clamp 200a is concavely provided with the first damping ring 220, the mounting platform 310 is convexly provided with the second damping ring 311, the damping rubber ring 333 is arranged between the first damping ring 220 and the second damping ring 311 in an extruding manner, and the back surface of the first clamp 200a is adjacent to the mounting arm 100. This arrangement has the advantage of facilitating the installation of the first clamp 200a and of being compact.

In some alternative implementations, the at least one first clamp 200a is fixedly mounted to the mounting member 300, and the first clamp 200a can be fixedly mounted to the mounting member 300 by any means, such as fastening with fasteners, gluing, welding, etc. Specifically, the mounting member 300 is fixedly mounted to the first clamp 200a by two fasteners 340. More specifically, the mounting opening 301 of the first sliding portion 320 is opened with two mounting holes 301a, the first clamp 200a is opened with two fastening holes 205a, and the fastening member 340 is fastened to the fastening holes 205a through the mounting holes 301 a.

In some alternative implementations, the mounting arm 100 is provided with a sliding slot 109c adapted to the first clamp 200a, and the first clamp 200a is slidably mounted within the sliding slot 109 c. Specifically, when the first clamp 200a is in the clamping state, the clamping portion 210 protrudes from the sliding groove 109c, so as to facilitate clamping of the first terminal. Further, the first clamp 200a is slidably mounted to the sliding groove 109c in a damping manner, and a damping plate 250 is disposed between the first clamp 200a and an inner wall of the sliding groove 109 c.

In some alternative implementations, the clamping device 1 includes a mounting arm 100 and two clamps 200, the clamps 200 are used for clamping the first terminal, and the two clamps 200 are respectively located at two opposite sides of the mounting arm 100.

Specifically, two side surfaces of the mounting arm 100 are respectively provided with a sliding groove, and the two clamps 200 are respectively slidably mounted in the sliding grooves of the two side surfaces.

Specifically, clamping portions respectively located at different two clamps 200 may form a first clamping space 201.

In this implementation, the clamp 200 may be a first clamp 200a.

Specifically, the clamping device 1 further includes a locking member 271, at least one of the pair of clamping portions 210 forming the first clamping space 201 is a first clamping portion 211, the first clamping portion 211 can be turned from one side surface to the other side surface of the mounting arm 100, and the locking member 271 is used for locking the first clamping portion 211 when the first clamping portion 211 clamps the first terminal and forms the first clamping space 201.

Specifically, the first clamping portion 211 is two clamping bars 211a, the two clamping bars 211a are respectively disposed on two opposite sidewalls of the clamp 200, and the clamping bars 211a are hinged to the clamp 200.

Specifically, referring to fig. 56, the first clamping portion 211 is two clamping bars 211a, the two clamping bars 211a are respectively disposed on two opposite sidewalls of the clamp 200, the clamping bars 211a are hinged to the clamp 200, and the locking member 271 is a fastening member having an adjusting portion for adjusting an acting force between the clamping bars 211a and the clamp 200 to lock the clamping bars.

Specifically, the locking member 271 is disposed on the holding bar 211a, and the locking member 217 can be supported on the outer wall of the clamp 200 through the holding bar 211 a.

In some alternative implementations, a pair of clamping portions 210 forming the first clamping space 210 are adjacent, and no other clamping portion 210 is between two adjacent clamping portions 210. The pair of adjacent clamping portions 210 may be provided to the jig 200 in any manner, and the pair of adjacent clamping portions 210 may be receivable. Specifically, the mounting arm 100 is provided with two clamps 200, and a pair of adjacent clamping portions 210 may form a first clamping space 201.

In some alternative implementations, at least one clamping portion 210 of the pair of clamping portions 210 forming the first clamping space 210 is fixedly disposed to the clamp 200. Specifically, in some implementations, two clamping portions 210 forming the first clamping space 210, one clamping portion 210 fixedly disposed to the fixture 200 and the other clamping portion 210 receivably disposed to the other fixture 200, in some implementations, both clamping portions 210 forming the first clamping space 210 are fixedly disposed to the respective fixtures 200.

In some alternative implementations, at least one grip portion 210 of a pair of grip portions 210 forming the first grip space 210 can be received. In the implementation shown in fig. 1, both clamping portions 210 forming the clamping space 201 can be received, and in some implementations, both clamping portions 210 forming the first clamping space 210 are fixedly disposed on the fixture 200, and the other clamping portion 210 can be received on the other fixture 200.

In some alternative implementations, there is at least one clamping portion 210 within the first clamping space 201.

In some alternative implementations, referring to fig. 1 and the like, all of the clips include at least one receivable first clip 212.

In some optional implementations, referring to fig. 1 and 31, at least one first clamping portion 212 is a holding type clamping portion 212a, a first receiving cavity 2013 is formed in a clamp 200 having the holding type clamping portion 212a, the holding type clamping portion 212a is hinged to the clamp 200 (may be a shaft hinge with one degree of rotational freedom, or may be a ball hinge with three degrees of rotational freedom), the first receiving cavity 2013 has a abutting wall 2013a, and when the first clamping space 201 is formed, the holding type clamping portion 212a abuts against the abutting wall 2013a.

Specifically, the first accommodating cavity 2013a penetrates through the front and back surfaces of the fixture, so that the first clamping portion 212 can be conveniently pulled out after being accommodated.

Specifically, the first receiving cavity 2013a is provided with a receiving portion 281, and when the accommodating type clamping portion 212a is received, the accommodating type clamping portion 212a abuts against the receiving portion 281.

In some realizable versions, referring to fig. 1, 31, etc., the bolster 281 is located in the first receiving cavity 2013 away from the side wall of the abutment wall 2014.

In some realizable aspects, referring to fig. 1, 31, etc., the clamp 200 includes a first clamping plate 241 and a second clamping plate 242 elastically and telescopically connected to the first clamping plate 241, the first clamping plate 241 and the second clamping plate 242 are arranged side by side, a joint of the first clamping plate 241 and the second clamping plate 242 divides the first receiving cavity 2013, the accommodating clamping portion 212a is hinged to the second clamping plate 242, and the receiving portion 281 is arranged on the second clamping plate 242. This has the advantage that the female clip portion 212a is not easily inverted to the back of the clip 200 when the second clip 242 is moved away from the first clip 241.

Specifically, the clamp 200 is provided with a first gap 2015 convenient for shifting the accommodating type clamping portion 212a, and the first gap 2013b is communicated with the first accommodating cavity 2013. First breach 2015 can set up in the relative lateral wall of the articulated department of first collecting cavity 2013, also can set up the lateral wall adjacent with the articulated lateral wall of first collecting cavity 2013. The shape of first breach 2015 is arbitrary, can be arc breach, ladder breach, specifically, first breach 2015 is the arc breach.

Specifically, the receiving clamp 212a is provided with a second notch 2016, and when the receiving clamp 212a is received, the second notch 2016 corresponds to the first notch 2016. Second notch 2016 may be an arc notch, a step notch, specifically, second notch 2016 is a step notch. The advantage of providing a second indentation 2016 is that it further facilitates the toggling of receiving clamp 212a.

Specifically, the clamp 200 is provided with a toggle opening 2017, and the toggle opening 2017 penetrates from the side wall of the clamp 200 to the first accommodating cavity 2013. In this implementation, the female clamp portion 212a is hinged to the clamp 200 on one side and faces the toggle opening 2017 on the other side.

In some alternative implementations, referring to fig. 1 and the like, the clamping surface 2024 of the first clamping portion 212 is concave or planar, and the clamping surface of at least one first clamping portion 212 is provided with a flexible protector 212i.

In other alternative implementations, referring to fig. 1, all of the first clamps 200a are slidably mounted to the mounting arm 100, at least 1 of the first clamps 200a is a telescopic clamp 200d, and the remaining first clamps 200a may take any form of structure. For example, the number of the first clamps 200a is 3, and the number of the first clamps 200a that are the telescopic clamps 200d may be 1, 2, or 3. Specifically, the number of the first jigs 200a is 2, wherein 1 of the first jigs 200a is a telescopic jig 200d, the clamping range is adjustable, and the clamping range of the other first jig 200a is fixed.

In other alternative implementations, the mount 300 may be mounted to the second clamping plate 242 of the telescopic clamp 200 d.

In some alternative implementations, referring to fig. 20, the at least two clamps 200 further include at least one second clamp 200b, the second clamp 200b is disposed on the mounting arm 100, and the second clamp 200b can be disposed on the mounting arm 100 in any manner. Specifically, in this implementation, there are three clamps 200, including two first clamps 200a and one second clamp 200b, and the second clamp 200b is located between the two first clamps 200a. For example, the second clamp 200b may be provided to the mounting arm 100 so as to be rotationally damped, or the second clamp 200b may be fixedly, detachably, integrally provided to the mounting arm 100 via an intermediate member.

In some alternative implementations, referring to fig. 21, the second clamp 200b is rotatably mounted to the mounting arm 100 in a damped manner, and the second clamp 200b may be rotatably mounted to the mounting arm 100 in any manner. Specifically, the second clamp 200b is connected to the mounting arm 100 through a connecting shaft 330, the second clamp 200b is provided with a first damping ring 220, the mounting arm 100 is convexly provided with a second damping ring 311, the first damping ring 220 and the second damping ring 311 are sleeved with each other, and a damping rubber ring 312 is arranged between the first damping ring 220 and the second damping ring 311 in an extruding manner.

In some alternative implementations, referring to fig. 25 or 26, the number of the second sliding portions 120 of the mounting arm 100 is two, two second sliding portions 120 are respectively disposed on two opposite sidewalls of the mounting arm 100, and obviously, the two second sliding portions 120 are disposed in parallel. This provides the advantage of smoother sliding of the first clamp 200a.

In some alternative implementations, referring to fig. 25, the second sliding part 120 is a guide rail, and obviously, the first sliding part 320 is a guide groove adapted to the guide rail. The shape of the guide groove can be' 21274.

In some alternative implementations, referring to fig. 26, the second sliding portion 120 is a second sliding slot 108a, the first sliding portion 320 is two sliding protrusions 322, and the two sliding protrusions 322 are slidably mounted in the two second sliding slots 108a, respectively.

In some alternative implementations, referring to fig. 27 and 28, the mounting arm 100 includes a mounting main body 130 and a sliding plate 140, the sliding plate 140 is mounted on the mounting main body 130, the second sliding portion 120 may be disposed on a side wall of the mounting main body 130 or the sliding plate 140 (or the second sliding portion 120 is formed by the mounting main body 130 and the side wall of the sliding plate 140), two connecting arms 313 are formed by extending from the mounting table 310, and one end of the connecting arm 313 away from the mounting table 310 is bent to form the first sliding portion 320.

In some alternative implementations, referring to fig. 29, the mount 300 further includes a first damping portion 314 disposed on the mounting platform 310, the first damping portion 314 being in close fit with the sled 140 to provide a damping force to hold the first clamp 200a in any position.

In some alternative implementations, referring to fig. 26, the front face of the skid plate 140 is recessed to form the damping slot 108b. This arrangement has the advantage that the mounting arm 100 is more compact. And the damping member is provided separately from the sliding member to improve the durability of the respective members, so that the structure of the mounting member 300 is simpler.

In some optional implementations, referring to fig. 29, the mounting member 300 further includes a connecting shaft 332, the mounting platform 310 is provided with a connecting hole 302b, the connecting shaft 332 is inserted into the connecting hole 302b, the connecting shaft 332 is used for connecting the first clamp 200a and the mounting platform 310, and the first clamp 200a and the mounting platform 310 are mounted in a damping rotation manner.

In some optional implementations, referring to fig. 29, the mounting member 300 further includes a damping rubber ring 333, the back surface of the first clamp 200a is concavely provided with the first damping ring 220, the mounting platform 310 is convexly provided with the second damping ring 311, the damping rubber ring 333 is arranged between the first damping ring 220 and the second damping ring 311 in an extruding manner, and the back surface of the first clamp 200a is adjacent to the mounting arm 100. This arrangement has the advantage of facilitating the installation of the first clamp 200a and of being compact.

In some alternative implementations, referring to fig. 30, at least one third clamp 200c is included in the overall clamp 200, the third clamp 200c being mounted with the mounting arm 100 in a damped rotational manner. Specifically, a third damping ring 220a is disposed on the back of the third clamp 200c, the mounting arm 100 is provided with a fourth damping ring 311a, the third damping ring 220a and the fourth damping ring 311a are sleeved with each other, a damping rubber ring 333a is disposed between the third damping ring 220a and the fourth damping ring 311a, the damping rubber ring 333a is in a compression state, the third clamp 200c and the mounting arm 100 are connected by a second connecting shaft 332a, the second connecting shaft 332a is used for connection, the second connecting shaft 332a may be a connector such as a screw, a rivet, or a pin, and the second connecting shaft 332a penetrates through the third damping ring 220a, the fourth damping ring 311a, and the damping rubber ring 333 a.

The embodiment of the utility model provides a still provide a support, refer to fig. 32, including holding portion 2 and clamping device 1, clamping device 1 is connected with holding portion 2, and clamping device 1 can be any one of above-mentioned embodiment. The support 2 may be a hand-held support, a base support, a neck-hung support, a clamp support, a vehicle outlet support, a tripod support, a selfie stick support, or the like. The connection of the holding device 1 to the support 2 can be integrated, fixed, movable, detachably connected, connected via an intermediate piece, etc.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. A clip, characterized in that the clip has a clamping portion for clamping a first terminal,

including at least one formula clamping part that holds in the clamping part of anchor clamps, anchor clamps are seted up and are used for holding hold the first chamber of accomodating of formula clamping part, first chamber of accomodating link up the tow sides of anchor clamps, the formula clamping part that holds articulate in anchor clamps, first chamber of accomodating is equipped with the accepting part, when the formula clamping part that holds is accomodate, the formula clamping part that holds support lean on in the accepting part.

2. The clamp of claim 1, wherein the first receiving cavity has an abutment wall against which the female clamping portion abuts when clamping the first terminal, the first receiving cavity being provided with a receptacle against which the female clamping portion abuts when receiving the female clamping portion.

3. The clip of claim 1, wherein the socket is located in a side wall of the first receiving cavity remote from the abutment wall.

4. The clamp according to claim 1, characterized in that the clamp comprises a first clamping plate and a second clamping plate elastically and telescopically connected with the first clamping plate, the first clamping plate and the second clamping plate are arranged side by side, the first receiving cavity is divided at the joint of the first clamping plate and the second clamping plate, the accommodating clamping part is hinged to the second clamping plate, and the second clamping plate is provided with the receiving part.

5. The clamp of claim 1, wherein the clamp is provided with a first notch for shifting the accommodating clamping portion, and the first notch is communicated with the first accommodating cavity.

6. A clip according to claim 5, wherein the receiving gripping portion is provided with a second indentation corresponding to the first indentation when the receiving gripping portion is received.

7. The clamp of claim 1, wherein the clamp defines a toggle opening extending from a sidewall of the clamp to the first receiving cavity, the female clamping portion has an extension portion, and the extension portion extends out of the clamp through the toggle opening when the female clamping portion is received.

8. The clip of claim 1 wherein a back surface of the female clip portion is flush with a top surface of the clip when the female clip portion is received.

9. A clamping arrangement comprising a mounting arm and a clamp according to any one of claims 1 to 8, said clamp being provided on said mounting arm.

10. A bracket comprising a support portion and a clamping device as claimed in claim 9, the clamping device being connected to the support portion.

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