CLAMPING HANDLE DEVICE, CARRYING BAG, AND ELECTRONIC DEVICE STAND USING THE SAME

Abstract

A clamping handle device includes a clamp body with pivotally connected first and second clamping portions biased by a torsion spring towards a closed position. The clamp body defines a clamping mouth on the opposite side of the torsion spring. First and second handles slide relative to the clamping body and positioned on opposite sides of the clamping mouth. Each handle has hinged first and second handheld portions. The second handheld portions can be rotated to separate the ends of the first and second clamping portions to open the clamping mouth. The clamping handle device is integrated into a carrying bag with detachable sidewalls, and also functions as an electronic device stand.

Claims

1. A clamping handle device, comprising: a clamping body, having a clamping mouth configured to be selectively opened and closed; a handle component, including a first handle and a second handle, the first handle and the second handle each at least partially slidable relative to the clamping body and positioned on opposite sides of the clamping mouth; wherein each of the first handle and the second handle includes a first handheld portion and a second handheld portion; in the same handle, the second handheld portion is hingedly coupled to the first handheld portion.

2. The clamping handle device according to claim 1, wherein the clamping body comprises: a first clamping portion; a second clamping portion hingedly coupled to the first clamping portion by a pivot shaft; a torsion spring disposed on the pivot shaft, with two ends respectively abutting against the first clamping portion and the second clamping portion; wherein the first clamping portion and the second clamping portion each include an end positioned away from the pivot shaft, and the two ends collectively define the clamping mouth.

3. The clamping handle device according to claim 2, wherein the first handle is slidably engaged with the first clamping portion, and the second handle is slidably engaged with the second clamping portion.

4. The clamping handle device according to claim 2, wherein in a direction extending from the clamping mouth towards the pivot shaft, a distance between the first clamping portion and the second clamping portion first increases and then subsequently decreases.

5. The clamping handle device according to claim 4, wherein: the first clamping portion defines two through-holes; the first handle is slidably disposed through both of through-holes and configured to reciprocate within the through-holes; and the second handle is connected to the second clamping portion in a manner identical to the connection between the first handle and the first clamping portion.

6. The clamping handle device according to claim 1, wherein: In the same handle, the first handheld portion comprises two first rods and a first connection section disposed between and connected to the two first rods; and the second handheld portion comprises two second rods and a second connection section disposed between and connected to the two second rods; wherein the first rod is pivotally coupled to the second rod in a one-to-one correspondence, and each cooperative set of the first rod and the second rod is slidably coupled to the clamping body through at least one hole.

7. The clamping handle device according to claim 1, wherein: the first handheld portion extends out of the clamping body on a side distal from the clamping mouth; and/or the second handheld portion extends out of the clamping body on a side adjacent to the clamping mouth.

8. The clamping handle device according to claim 1, wherein: the first clamping portion and the second clamping portion each comprise an additional section; the additional section is disposed at the side of the respective clamping portion adjacent to the clamping mouth; and the additional sections are configured to contact each other when the clamping mouth is closed.

9. The clamping handle device according to claim 1, wherein the first handheld portion and the second handheld portion are hingedly coupled about a hinge joint.

10. The clamping handle device according to claim 9, wherein: when the second handheld portion is rotated in a direction away from the clamping mouth and contacts the clamping body, a distal end of the first handheld portion, located away from the hinge joint, is positioned lower than the distal end of the second handheld portion, located away from the hinge joint.

11. The clamping handle device according to claim 9, wherein: the handle component is operable in a first configuration, wherein: each of the hinge joints of the handle component, is outside the clamping body on the side adjacent to the clamping mouth; and each of the second handheld portions is rotated in a direction away from the clamping mouth to open the clamping mouth.

12. The clamping handle device according to claim 2, wherein: the handle component is operable in a second configuration, the torsion spring biases the first clamping portion and the second clamping portion towards the closed position of the clamping mouth.

13. A carrying bag, comprising, a bag body and the clamping handle device of claim 1, wherein the clamping handle device is removably disposed to the bag body.

14. The carrying bag according to claim 13, wherein: the bag body defines an opening and includes a first sidewall and a second sidewall on opposite sides of the opening; wherein the first sidewall and the second sidewall are removably coupled adjacent to the opening.

15. The carrying bag according to claim 14, wherein: the first sidewall includes a button positioned at the top adjacent to the opening, and the second sidewall includes a button loop configured to be removably coupled to the button; and/or the first sidewall includes a sealing strip disposed at the top adjacent to the opening; and the second sidewall includes a sealing slot configured to detachably engage with the sealing strip through a pressing operation, thereby closing or opening the opening of the bag body.

16. The carrying bag according to claim 14, wherein: the opening of the bag body is rectangular and further includes a pair of opposite third sidewalls; each of the third sidewalls is partially foldable and positioned between the first and second sidewalls, and an inner surface of each third sidewall is removably coupled to both the first sidewall and second sidewall adjacent to the opening.

17. The carrying bag according to claim 16, wherein: the third sidewall includes a protrusion towards inside of the bag body; the first sidewall and the second sidewall each include a corresponding groove towards inside of the bag body; and the protrusion is detachably snap-fitted into the groove.

18. The carrying bag according to claim 13, wherein: the bag body is a truncated rectangular pyramid structure with an opening; and the cross-sectional area of the opening is larger than that of an end of the truncated rectangular pyramid structure opposite the opening.

19. The carrying bag according to claim 13, wherein: the bag body is integrally formed; and/or the bag body is made of silicone material; and/or the thickness at a proximal part of the bag body relative the opening is less than that of a distal part of the bag body relative opening.

20. An electronic device stand comprising the clamping handle device of claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] It should be expressly understood that the drawings are for purposes of illustration and description only and are not intended as definitions of the limitations of the application.

[0022] FIG. 1 is a perspective view of a clamping handle device to an embodiment of the present application;

[0023] FIG. 2 is a side view thereof;

[0024] FIG. 3 is a perspective view of a first handle to an embodiment of the present application;

[0025] FIG. 4 is a perspective view of a clamping handle device in a first configuration;

[0026] FIG. 5 is a perspective view of a clamping handle device in a second configuration;

[0027] FIG. 6 is a perspective view of a carrying bag to an embodiment of the present application;

[0028] FIG. 7 is a perspective view of a bag body with its opening in an open state according to an embodiment of the present application;

[0029] FIG. 8 illustrates an embodiment of the clamping handle device configured as an electronic device stand;

[0030] FIG. 9 illustrates another embodiment of the clamping handle device configured as an electronic device stand.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0031] The following clearly and completely describes the technical disclosures in the embodiments of this application with reference to the accompanying drawings in the embodiments of this application. Based on the embodiments in this application, all other embodiments obtained by those skilled in the art without creative efforts fall within the protection scope of this application.

[0032] It is understood that although the terms first, second, and the like may be used herein to describe different elements, these elements should not be limited by these terms. These terms are merely used to distinguish one element from another. Thus, a first element may be referred to as a second element without departing from the teachings of the disclosed concept.

[0033] Unless otherwise explicitly specified and defined, the terms coupled in this application should be understood broadly, for example, may be a fixed connection, or may be coupled through an intermediary medium, or may be internal communication between two elements or an interaction relationship between two elements. For those of ordinary skill in the art, the specific meaning of the above terms in the present disclosure may be understood according to specific conditions.

[0034] As shown in FIG. 1, a clamping handle device is provided with a clamping body 100 with a handle component 200 attached thereto.

[0035] As shown in the FIG. 1 and FIG. 2, the clamping body 100 includes a first clamping portion 110 and a second clamping portion 120 hingedly coupled to the first clamping portion 110. An end of the first clamping portion 110 may be hingedly coupled to an end of the second clamping portion 120 by a pivot shaft 310. A cavity is formed between midsections of the first clamping portion 110 and the second clamping portion 120 and configured to accommodate at least a part of the clamped item. The first clamping portion 110 and the second clamping portion 120 both include distal ends positioned away from the pivot shaft 310 that collectively define a clamping mouth. The clamping mouth is configured to be selectively opened and closed.

[0036] A torsion spring 300 is sleeved over the pivot shaft 310, with two ends of the torsion spring 300 respectively abutting against the first clamping portion 110 and the second clamping portion 120. The torsion spring 300 is configured to bias the first clamping portion 110 and the second clamping portion 120 towards a closed position of the clamping mouth.

[0037] The handle component 200 includes a first handle 210 and a second handle 220. The first handle 210 is disposed on the first clamping portion 110, and the second handle 220 is disposed on the second clamping portion 120. The first handle 210 and the second handle 220 each at least partially slidable relative to the clamping body 100 and positioned on opposite sides of the clamping mouth.

[0038] The first clamping portion 110 and the second clamping portion 120 are slidably coupled to the first handle 210 and the second handle 220 respectively. For example, the first clamping portion 110 includes through-holes, and the first handle 210 at least partially disposed through the through-holes and reciprocate within the through-holes. The connection relationship between the second clamping portion 120 and second handle 220 is similarly configured. The second clamping portion 120 includes through-holes, and the second handle 220 at least partially disposed through in the through-holes and reciprocate within the through-holes.

[0039] The first handle 210 includes a first handheld portion 211 and a second handheld portion 212 hingedly coupled to the first handheld portion 211. And the second handle 220 also includes a first handheld portion 211 and a second handheld portion 212 hingedly coupled to the first handheld portion 211. Relative to each other, the first handheld portion 211 is closer to the pivot shaft 310, and the second handheld portion 212 is closer to the clamping mouth.

[0040] The first handheld portion 211 and the second handheld portion 212 are hingedly coupled about a hinge joint, the hinge joint is positioned between the first handheld portion 211 and the second handheld portion 212 in the same handle. When it is necessary to open the clamping mouth, the hinge joint of the first handle 210 is slid out the clamping body 100 on a side adjacent to the clamping mouth. And the hinge joint of the second handle 220 also slid out the clamping body 100 on a side adjacent to the clamping mouth. This configuration may avoid the clamping body 100 interfering with rotation of the second handheld portion 212 to open the clamping mouth.

[0041] In one embodiment, in the same handle, for example in the first handle 210, the hinge joint of the first handheld portion 211 and the second handheld portion 212 is movable to an interior of the clamping body 100, an exterior of the clamping body 100 on a side adjacent to the pivot shaft 310, and an exterior of the clamping body 100 on a side adjacent to the clamping mouth.

[0042] When the hinge joint is located out of the clamping body 100 on the side adjacent to the clamping mouth, the first handheld portion 211 extends out of the clamping body 100 on the side adjacent to the pivot shaft 310. This configuration ensures that a portion of the first handheld portion 211 is always positioned outside the clamping body 100. When hand-carrying is required, a user may pull the extended portion of the first handheld portion 211, thereby facilitating operation. The distal end of the second handheld portion 212, which is away from the hinge joint, is capable of rotating in a direction away from the clamping mouth, thereby opening the clamping mouth.

[0043] When the second handheld portion 212 is rotated in a direction away from the clamping mouth and contacts the clamping body 100, a distal end of the first handheld portion 211, located away from the hinge joint, is positioned lower than the distal end of the second handheld portion 212, located away from the hinge joint. This configuration may avoid the interference of the first handheld portion 211 in the rotation of the second handheld portion 212 during opening the clamping mouth and facilitate the clamping force applied by the user.

[0044] When the hinge joint is located out of the clamping body 100 on the side adjacent to the pivot shaft 310, the second handheld portion 212 extends out of the clamping body 100 on the side adjacent to the clamping mouth. This configuration ensures that a portion of the second handheld portion 212 is always positioned outside the clamping body 100. When it is necessary to open the clamping mouth, a user may pull the extended portion of the second handheld portion 212 to cause the hinge joint to slide out of the clamping body 100 on the side adjacent to the clamping mouth, and then rotate the second handheld portion 212.

[0045] By adjusting the hinge joint and a rotation angle of the second handheld portion 212, the component 200 is provided with multiple configurations to achieve different functions.

[0046] As shown in FIG. 4, when it is necessary to open the clamping mouth, the handle component 200 is transformed into a first configuration, in which the hinge joints of the handle component 200 are located out of the clamping body 100 on the side adjacent to the clamping mouth. Both second handheld portions 212 are rotated in the direction away from the clamping mouth, forming a structure similar to a dovetail clamp with the clamping body 100. Continued rotation of the two second handheld portions 212 towards the pivot shaft 310 separates the ends of the first clamping portion 110 and the second clamping portion 120 adjacent to the clamping mouth, thereby opening the clamping mouth to receive an item for subsequent clamping.

[0047] When it is necessary to carry the item by hand, the handle component 200 is transformed into a second configuration, in which the external force is removed, and the ends of the first clamping portion 110 and the second clamping portion 120 adjacent to the clamping mouth move towards the closed position of the clamping mouth under the action of the torsion spring 300, thereby firmly holding the item. Users may hold the first handheld portion 211 to carry the item. In the second configuration, the main body of the first handheld portion 211 and the second handheld portion 212 of the same handle are configured to the handle's extension directions or be substantially aligned.

[0048] As shown in the FIG. 5, when the extension directions of the main body of the first handheld portion 211 and the second handheld portion 212 of the same handle are substantially aligned, each of the hinge joints of the handle component 200 is positioned outside the clamping body 100 distal from the clamping mouth, thereby providing the user with a larger hand-holding space.

[0049] In one embodiment, the hinge joint of the first handheld portion 211 and the second handheld portion 212 is slidable to an interior of the clamping body 100 and an exterior of the clamping body 100 on a side adjacent to the clamping mouth.

[0050] In the first configuration, the hinge joints of the handle component 200 are located out of the clamping body 100 on the side adjacent to the clamping mouth. Both second handheld portions 212 are rotated in the direction away from the clamping mouth, forming a structure similar to a dovetail clamp with the clamping body 100.

[0051] In the second configuration, the ends of the first clamping portion 110 and the second clamping portion 120 adjacent to the clamping mouth move towards the closed position of the clamping mouth under the action of the torsion spring 300. The main body of the first handheld portion 211 and the second handheld portion 212 of the same handle are configured to the handle's extension directions or be substantially aligned. When the extension directions of the main body of the first handheld portion 211 and the second handheld portion 212 of the same handle are substantially aligned, each of the hinge joints of the handle component 200 is positioned in the interior of the clamping body 100, thereby providing the user with a larger hand-holding space.

[0052] In one embodiment, in a direction extending from the clamping mouth towards the pivot shaft 310, a distance between the first clamping portion 110 and the second clamping portion 120 first increases and then subsequently decreases. A longitudinal cross-section of the first clamping portion 110 may be approximately C-shaped. Specifically, the first clamping portion 110 includes, in sequence from a distal side to a proximal side relative to the clamping mouth, an upper wall 111, a transition wall 112 and a lower wall 113. The upper wall 111 and the lower wall 113 are each configured as an inclined plate. Each of the upper wall 111 and the lower wall 113 includes a through-hole, and the first handle 210 is slidably disposed through the through-holes of the upper wall 111 and the lower wall 113. This design is configured to operatively constrain the movement direction of each the first handle 210 and the second handle 220 such that it aligns with the line connecting the centers of the two through-holes.

[0053] An additional section 114 is provided on a side of the lower wall 113 adjacent to the clamping mouth. In a state without external force, the clamping mouth is closed, and the two additional sections 114 are in contact with each other, thereby increasing a clamping contact area and ensuring a clamping effect.

[0054] In one embodiment, the first clamping portion 110 is identical in structure to the second clamping portion 120, the first clamping portion 110 and the second clamping portion 120 are mirror-symmetrical.

[0055] In one embodiment, as shown in FIG. 3, in the same handle, the first handheld portion 211 includes two first rods and a first connection section disposed between and connected to the two first rods. The second handle portion 212 includes two second rods and a second connection section disposed between and connected to the two second rods. The first rod is pivotally coupled to the second rod in a one-to-one correspondence, and each cooperative set of the first rod and the second rod is slidably coupled to the clamping body 100 through at least one hole.

[0056] The first handheld portion 211 and the second handheld portion 212 are both U-shaped, and together form a rectangular loop, which prevents the handle component 200 from sliding out of the clamping body 100. The first connection sections also facilitate holding.

[0057] To enhance usability, both the first handheld portion 211 and the second handheld portion 212 are equipped with anti-slip sleeves on their connection sections. These anti-slip sleeves are made of rubber.

[0058] In one embodiment, the hinge joint includes: an end plate 213 disposed on a proximal end of the first handheld portion 211 near the second handheld portion 212, a connecting shaft protruding from the end plate 213, and a connecting head 214 disposed on a proximal end of the second handheld portion 212 near the first handheld portion 211. The connecting head 214 is rotatably mounted on the connecting shaft. Optionally, two end plates 213 are symmetrically disposed, and the connecting shaft is disposed between the two end plates 213.

[0059] In one embodiment, the second handle 220 is identical in structure to the first handle 210.

[0060] In one embodiment, the clamping handle device is made of a hard material.

[0061] The item may be a bag, book, or other items that need to be carried by hand. The clamping handle device can be switched to different configurations for clamping an item, loosening the item and carrying the item.

[0062] In another aspect, as shown in FIG. 6, the present disclosure provides a carrying bag that includes a bag body 400 and the aforementioned clamping handle device, wherein the clamping handle device is detachably clamped on the top of the bag body 400.

[0063] In one embodiment, the bag body 400 is made of a soft material, such as silicone.

[0064] As shown in FIG. 7, the bag body 400 has an opening at its top and includes a first sidewall 410 and a second sidewall 420 on opposite sides of the opening. The first sidewall 410 and the second sidewall 420 are removably coupled to each other at the top adjacent to the opening, thereby enabling to open or close the opening to ensure the closing effect of the bag body 400.

[0065] In one embodiment, the first sidewall 410 is provided with a button, the second sidewall 420 is provided with a button loop, and the button is removably coupled to the button loop. The button is disposed at at least one end of the first sidewall 410, and the button loop is disposed at at least one end of the second sidewall 420 and corresponds to the button.

[0066] In one embodiment, the first sidewall 410 includes a sealing strip disposed at the top adjacent to the opening; and the second sidewall 420 includes a sealing slot configured to detachably engage with the sealing strip through a pressing operation, thereby closing or opening the opening of the bag body 400.

[0067] In one embodiment, the opening of the bag body 400 is rectangular, with the first sidewall 410 and second sidewall 420 forming a pair of opposite sides of the rectangle. Additionally, the bag body 400 further includes a pair of opposite third sidewalls 430 positioned between the first sidewall 410 and second sidewall 420. To facilitate the storage of the bag body 400, the third sidewall 430 is configured to be partially foldable, and an inner surface of each third sidewall 430 is detachably coupled to both the first sidewall 410 and the second sidewall 420 adjacent to the opening, thereby enhancing the sealing capability of the bag body 400 when closed. For example, the third sidewall 430 is provided with a protrusion towards an inside of the bag body, the first sidewall 410 and the second sidewall 420 each is correspondingly provided with a groove towards the inside of the bag body, and the protrusion is snap-fitted into the groove.

[0068] A folding point of the third sidewall 430 is located at a midpoint of its top edge. When the opening closed, two third sidewalls 430 bend towards each other until their folding points come into contact, and the first sidewall 410 and the second sidewall 420 are fully coupled to the third sidewall 430.

[0069] To facilitate the folding of the third sidewalls 430, creases are provided on the third sidewalls 430.

[0070] In one embodiment, the bag body 400 is a truncated rectangular pyramid structure defining the opening. The cross-sectional area of the opening may be can be greater than, equal to, or less than that of an end of the truncated rectangular pyramid structure opposite the opening.

[0071] When the cross-sectional area of the opening is larger than that of an end of the truncated rectangular pyramid structure opposite the opening, providing a wider opening at the top of the bag body 400, and facilitating the user's ability to view or retrieve the contents inside the bag body 400.

[0072] The bag body 400 may be made of food-grade material for accommodating food items, and the bag body 400 is integrally formed without any seams, thereby reducing the leakage risk. The bag body 400 may be heated by a microwave oven, and the clamping handle device is removed before the bag body 400 is heated.

[0073] When the bag body 400 is made of silicone material, the thickness of the silicone is designed to ensure that the bag body 400 is firmly upright without deformation, maintaining its internal space and reducing the likelihood of food deformation.

[0074] In one embodiment, the thickness of the bag body 400 may be between 1-5 mm. Due to the flexibility of the silicone material, users can easily invert the inner surface of the bag body 400 outward.

[0075] In one embodiment, the thickness at the proximal part of the bag body 400 relative opening is less than that of the distal part of the bag body 400 relative opening. For example, the thickness of the silicone at the bottom 2 cm of the bag body 400 is 2 mm, and the thickness of the remaining part of the silicone is gradually reduced to 1.4 mm upward. Here, the bottom is the distal part of the relative opening. This design ensures that the bag body 400 stands upright without tipping over, especially when a liquid is loaded. Additionally, the thinner material at the top allows for easy folding.

[0076] The bag body 400 of the carrying bag is detachably coupled to the clamping handle device. When taking out items, the clamping handle device may be removed first, and when used for holding food, there is no need for an additional storage bag, which is beneficial for environmental protection. The clamping handle device and the bag body 400 are easy to install and remove, and the clamping handle device can further close the opening of the bag body 400. The bag body 400 and the clamping handle device can perform their own environmental protection functions respectively and cooperate with each other to be better used.

[0077] In the application scenario of food storage, the recycled food containers can replace the disposable food boxes. Currently, food containers capable of containing solid food and liquid food in the commercial market are predominantly made of rigid plastic or glass, which are inconvenient to carry. Moreover, both disposable food boxes and containers made of rigid plastic, glass, or flexible plastic need to be additionally provided with a storage bag for hand holding. This approach is not only inconvenient but also environmentally unfriendly. After extensive research, it has been found that consumers prioritize leak-proof functionality, ease of use, and portability when selecting food bags for takeout.

[0078] The bag body 400 of the present disclosure is made of food-grade silicone material, which is convenient for holding food. The bag body 400 is designed to maintain an upright position without tipping over. It is integrally formed, which minimizes the risk of leakage and allows it to hold liquids. The detachable connection between the first sidewall 410, the second sidewall 420 and the third sidewall 430 can improve the sealing effect of the bag body 400. Made of a flexible material with an opening larger than its base, the bag body 400 can be folded over to a depth suitable for the user. When not in use, the physical characteristics of the silicone enable the bag body 400 to be easily rolled and folded for convenient storage and portability.

[0079] The carrying bag of the present disclosure is a lightweight, leak-proof, and foldable food bag favored by consumers, capable of holding food and beverages. When equipped with the clamping handle device, it is convenient to carry and allows for direct consumption upon opening, can be directly eaten after being opened. For consumers, it serves as a convenient and considerate alternative to traditional meal bags and containers.

[0080] The carrying bag of the present disclosure achieves both portability and environmental sustainability.

[0081] As shown in the FIG. 8 and FIG. 9, in another aspect, the present disclosure provides an application of the clamping handle device as an electronic device stand. The electronic device may be a mobile phone or a tablet.

[0082] The hinge joint provides restricted rotation, requiring a threshold torque to overcome static friction and initiate movement about the connecting shaft.

[0083] As shown in the FIG. 8, the hinge joint of the first handle 210 is located outside the clamping body 100 on a side adjacent to the pivot shaft 310, and the first handheld portion 211 of the first handle 210 is rotated in a direction away from the pivot shaft 310. Distal ends away from the hinge joint of the first handheld portion 211 and the second handheld portion 212 of the first handle 210 are in contact with the tabletop. The hinge joint of the second handle 220 is located outside the clamping body 100 on a side adjacent to the clamping mouth. A distal end away from the hinge joint of the second handheld portion 212 is in contact with the tabletop. This configuration ensures the stable placement of the electronic device stands on the tabletop. The extension directions of the main body of the first handheld portion 211 and the second handheld portion 212 of the second handle 220 are substantially aligned. The bottom end of the electronic device is placed on the second handheld portion 212 of the second handle 220, with its back surface in contact with the second clamping portion 120.

[0084] The anti-slip sleeves can enhance friction between the handle component 200 and both the electronic device and the tabletop. This design ensures secure placement and reduces the risk of slippage during use.

[0085] As shown in the FIG. 9, the hinge joint of the first handle 210 is located outside the clamping body 100 on a side adjacent to the pivot shaft 310, and the first handheld portion 211 of the first handle 210 is rotated in a direction away from the pivot shaft 310. A distal end away from the hinge joint of the second handheld portion 212 of the first handle 210 is in contact with the tabletop. The hinge joint of the second handle 220 is located outside the clamping body 100 on a side adjacent to the clamping mouth, the second handheld portion 212 of the second handle 220 is rotated in a direction away from the clamping mouth, and the distal end away from the hinge joint of the second handheld portion 212 is in contact with the tabletop. This configuration ensures the stable placement of the electronic device stands on the tabletop. The extension directions of the main body of the first handheld portion 211 and the second handheld portion 212 of the second handle 220 are not aligned. The bottom end of the electronic device is placed on the second handheld portion 212 of the second handle 220, and its back surface in contact with the first handheld portion 211 of the second handle 220.

[0086] In one embodiment, the first connection section of each first handheld portion 211 includes a first contact portion. The first contact portion is arranged along an extension direction of the first connection section and is located on the side away from the clamping mouth. In some embodiment, the first contact portion is in a form of a strip-shaped protrusion.

[0087] In one embodiment, the second section of each second handheld portion 212 includes a second contact portion. The second contact portion is arranged along an extension direction of the second connection section and is located on the side away from the clamping mouth. In some embodiments, the second contact portion is in the form of a strip-shaped protrusion. The bottom of the electronic device is placed on the contact portion of the second handheld portion 212 of the second handle 220, and its back surface in contact with the contact portion of first handheld portion 211 of the second handle 220, thereby preventing the electronic device from slipping off the stand. The first and second contact portions of the second handle 220 is configured to maintain stable contact with the electronic device, while the first and second contact portions of the first handle 210 is configured to maintain stable contact with the desktop surface.

[0088] The clamping handle device can be converted on the tabletop to support the electronic device. The user can adjust the shape of the clamping handle device according to the usage angle of the electronic device, thereby supporting the electronic device and enabling the clamping handle device to perform different functions in different configurations.

[0089] Finally, it should be noted that the above description is merely illustrative of some embodiments of the present application and is not intended to limit the present application, although the present application has been described in detail with reference to the foregoing embodiments, those skilled in the art may still modify the technical disclosures described in the foregoing embodiments, or perform equivalent replacement on some technical features therein, any modification, equivalent replacement, improvement, and the like made within the spirit and principle of the present application shall be included within the protection scope of the present application.