CN115498350A - Engagement member and battery accommodation device - Google Patents

Abstract

The invention discloses an engaging component and a battery accommodating device. The battery accommodating device includes a body and an engaging component. The engaging member is pivotally connected to the body. The engaging member includes two arm parts, two protruding parts and an elastic structure. Two ends of the elastic structure are connected to two arm parts, and one side of each arm part is extended to form a protruding part. When the battery is arranged in the accommodating groove of the body, the elastic structure is pressed by the battery, and one end of the battery is engaged and arranged between the two protrusions and the elastic structure. When the user wants to take out the battery, the user can push against the two protrusions so that the engaging member rotates relative to the body, thus the elastic structure will push the battery up, and one end of the battery will no longer be held The engaging member is engaged. The battery accommodating device of the present invention allows the user to easily take out the battery from the accommodating slot.

Description

Engagement member and battery accommodating device

technical field

The present invention relates to a clamping component and a battery storage device, in particular to a clamping component used in a battery storage device and a battery storage device including a clamping component which is convenient for a user to operate.

Background technique

The related structures commonly used to accommodate batteries in electronic devices (such as notebook computers, smart home appliance control centers, smart phones, keyboards, mice, etc.) often have the problem that users are not easy to remove the batteries with bare hands.

Contents of the invention

The invention discloses an engaging component and a battery accommodating device, which are mainly used to improve the problem in the prior art that it is difficult for relevant personnel to take out the battery from a related structure for accommodating the battery.

One of the embodiments of the present invention discloses an engaging member, which is used to be installed in an accommodating groove of a battery accommodating device, the accommodating groove is used for accommodating at least one battery, and the engaging structure includes: two arms part; two protrusions, one end of each arm extends to one side to form a protrusion; an elastic structure, which is connected with the other end of the two arms, and a part of each protrusion faces the direction of the elastic structure provided, and each protrusion and the elastic structure can jointly hold a part of the battery; wherein, when the two arm portions are moved toward each other by an external force, the elastic structure elastically deforms; the two first pivot structures, Each arm is provided with a first pivot structure; wherein, the engaging member is pivotally connected to the two second pivot structures of the battery accommodating device through two first pivot structures, and the engaging member can pass through two The first pivot structure rotates relative to the accommodating slot.

One embodiment of the present invention discloses a battery accommodating device, which is used for accommodating a battery. For the battery, the avoidance groove is connected with the accommodation groove, and the avoidance groove is formed by a bottom concave of the body; a locking member, which includes: two arms; two protrusions, one end of each arm faces to one side Extending to form a protrusion; an elastic structure, which is connected to the other end of the two arms, a part of each protrusion is arranged towards the direction of the elastic structure, and each protrusion and the elastic structure can jointly hold a part of the battery ; Wherein, when the two arms are moved toward each other by the external force, the elastic structure elastically deforms; the avoidance groove is used to accommodate the elastic structure; when the elastic structure is arranged in the avoidance groove, the elastic structure does not protrude from the bottom ; two first pivot structures, each arm is provided with a first pivot structure; two second pivot structures, which are arranged on the body, and the two second pivot structures are located in the accommodating groove, two The second pivot structure is pivotally connected to the two first pivot structures; the engaging member can be rotated relative to the main body under the action of external force.

In summary, the engaging member and the battery accommodating device of the present invention are designed by making the engaging member and the body pivotally connected to each other, and making the engaging member have an elastic structure, two arms, and two protrusions, etc. When relevant personnel want to take out the battery locked in the accommodating slot, they only need to push against the two protrusions to rotate the locking member relative to the main body, so that the elastic structure can lift up the battery, and the battery can be used. The battery is no longer engaged in the accommodating slot, and the user can easily take the battery out of the accommodating slot.

In order to further understand the characteristics and technical content of the present invention, please refer to the following detailed description and drawings related to the present invention, but these descriptions and drawings are only used to illustrate the present invention, rather than to make any statement on the scope of protection of the present invention. limit.

Description of drawings

1 and 2 are schematic diagrams of different viewing angles of the battery housing device of the present invention;

Fig. 3 is an exploded schematic diagram of the body and engaging members of the battery containing device of the present invention;

Fig. 4 is a schematic top view of the battery containing device of the present invention;

5 is a schematic partial cross-sectional view of the battery containing device of the present invention;

Fig. 6 is a schematic diagram of the engaging member of the present invention;

Fig. 7 and Fig. 8 are respectively a perspective view of a partial section and a schematic view of a partial section of a battery just installed in the battery containing device of the present invention;

Fig. 9 and Fig. 10 are respectively a perspective view of a partial section and a schematic view of a partial section of a battery that is about to be snapped and arranged in the battery containing device of the present invention;

FIG. 11 is a schematic cross-sectional view of a battery engaged and disposed in a battery accommodating device;

Fig. 12 is a schematic side view of the engaging member of the present invention;

Fig. 13 is a schematic diagram of another embodiment of the engaging member of the present invention.

Symbol Description

100: battery housing device 1: body

1A: holding tank

11: Limiting structure

11A: limit slot

12: Second pivot structure

13: Bottom

1B: Avoidance slot

13A: auxiliary groove 131: bottom surface

14: side wall

15: side wall

16: abutting structure 2: snapping member

21: Arm

211: wide side 22: protrusion

221: inclined surface

23: elastic structure

23A: Elastic structure

24: The first pivot structure

2A: snap slot

2AH: Depth

B: battery

B1: top surface

D1: first distance

D2: second distance

H1: first vertical distance

H2: second vertical distance

S: Gap

P: Gap

W: horizontal distance

θ: included angle

detailed description

In the following description, if it is pointed out that please refer to the specific drawings or as shown in the specific drawings, it is only used to emphasize the follow-up description. Most of the relevant content mentioned appears in the specific drawings, but It is not intended that reference in this ensuing description be made to only the particular figures described.

Please refer to FIGS. 1 to 6 together. FIG. 1 and FIG. 2 are schematic diagrams of different viewing angles of the battery storage device of the present invention. FIG. 4 is a schematic top view of the battery containing device of the present invention, FIG. 5 is a schematic partial cross-sectional view of the battery containing device of the present invention, and FIG. 6 is a schematic view of the engaging member of the present invention.

The battery accommodating device 100 of the present invention is used for accommodating a battery B. As shown in FIG. The battery containing device 100 includes a body 1 and an engaging member 2 . In practical applications, the battery housing device 100 can be used in various electronic devices, and the body 1 of the battery housing device 100 can be used as a part of the electronic device, for example, the body 1 can be used as the shell of the electronic device A part of the body; the electronic device can be, for example, a notebook computer, a smart home appliance control hub (HUB), a keyboard, a mouse, a smart phone, a smart tablet computer, etc., and various electronic devices that include batteries.

The main body 1 includes an accommodating slot 1A, two limiting structures 11 , a avoiding slot 1B and two second pivot structures 12 . The accommodating groove 1A is used for accommodating the battery B, and the escape groove 1B communicates with the accommodating groove 1A, and the avoiding groove 1B is formed by a bottom 13 of the body 1 being concave. The accommodating tank 1A is mainly used for accommodating batteries. Therefore, the shape and size of the accommodating tank 1A can vary according to the shape and size of the battery, and the figure shown is only one example. The escape groove 1B is used to accommodate a part of the engaging member 2 , and the shape and location of the escape groove 1B are determined corresponding to the shape of the engaging member 2 and its location on the body 1 .

Two position-limiting structures 11 are arranged on the body 1, and the two position-limiting structures 11 are located in the accommodation groove 1A, and the two position-limiting structures 11 are located at the other end of the accommodation groove 1A, and each position-limiting structure 11 and the bottom 13 are jointly formed One limiting slot 11A, the two limiting slots 11A are used to accommodate one end of the battery B, and the two limiting structures 11 and the bottom 13 can hold one end of the battery B together. In the drawings of this embodiment, it is taken as an example that two limiting structures 11 are formed at intervals on the side wall 14 of the main body 1, but the positions where the two limiting structures 11 are arranged on the main body 1 are not shown in the figure. As long as the structure can be used to limit one end of the battery B, it all belongs to the specifically applicable scope of the limiting structure 11 referred to herein. The quantity, shape and size of the limiting structures 11 are not limited to those shown in the figure of this embodiment.

In practical application, in order to make it easier for relevant personnel to arrange one end of the battery B between the two limiting structures 11 and the bottom 13 of the body 1, the bottom 13 of the body 1 can also be concavely formed with two auxiliary recesses. The groove 13A, each auxiliary groove 13A is correspondingly located under one of the limiting structures 11 . As shown in Figure 7, through the design of the two auxiliary grooves 13A, one end of the battery B is disposed between the limiting structure 11 and the bottom 13, and a part of the battery B can be correspondingly located in the auxiliary groove 13A, In this way, one end of the battery B will be more easily disposed in the limiting groove 11A between the two limiting structures 11 and the bottom 13 . In this embodiment, the two auxiliary grooves 13A are correspondingly located at the two corners of the bottom 13, but it is not limited thereto. In different embodiments, the two auxiliary grooves 13A shown in the figure They may communicate with each other to form a single auxiliary groove 13A. The shape and size of each auxiliary groove 13A are not limited to those shown in the figure.

The two second pivot structures 12 are disposed on the body 1 , and the two second pivot structures 12 are located in the accommodating groove 1A. The two second pivot structures 12 are located at the other end of the main body 1 opposite to the two limiting structures 11 . The two second pivot structures 12 are used to pivotally connect with the two first pivot structures 24 of the engaging member 2 . In the drawings of this embodiment, each second pivot structure 12 is taken as an example of a cylindrical structure, but not limited thereto; in different embodiments, each second pivot structure 12 may be a groove, Perforation, hemispherical convex structure, etc.

The engaging member 2 is detachably fixed on the body 1 . The engaging member 2 includes: two arm portions 21 , two protruding portions 22 , an elastic structure 23 and two first pivot structures 24 . One end of each arm portion 21 extends to one side to form a protruding portion 22 . The size and shape of each arm portion 21 can be changed according to the requirement, and the figure shown is only one example.

The elastic structure 23 is connected to the other end of each arm portion 21 , and a part of each protruding portion 22 is disposed toward the direction of the elastic structure 23 . Specifically, each arm 21 can be a rectangular structure, and the two ends of the elastic structure 23 can be a wide side 211 connecting the two arms 21, and each arm 21 is connected to the wide side 211 of the elastic structure 23 to form There is a protrusion 22 . The elastic structure 23 can be elastically deformed by external force. The elastic structure 23 elastically deformed by the external force can return to the state when no external force is applied when the external force is no longer applied.

Each arm portion 21 is provided with a first pivot structure 24 . Each first pivot structure 24 is used to be pivotally connected to one of the second pivot structures 12, and the engaging member 2 can pass through each first pivot structure 24 and the second pivot structure 12 to be relatively Rotate on body 1. In the accompanying drawings of this embodiment, each first pivotal structure 24 is a perforation, and each second pivotal structure 12 is a corresponding cylindrical structure as an example, but each first pivotal structure 24 and each The shape and size of the second pivot structure 12 are not limited to those shown in the figure. In different embodiments, each first pivot structure 24 may also be a cylindrical structure, while each second pivot structure 12 is a through hole.

As mentioned above, through the design of the elastic structure 23, when the relevant personnel install the engaging member 2 in the accommodating groove 1A, it is easier to connect the two first pivot structures 24 of the engaging member 2 with the main body. The two second pivot structures 12 of 1 are engaged with each other. Specifically, as shown in Fig. 1, Fig. 3 to Fig. 5, when the user wants to install the engaging member 2 in the accommodating groove 1A, the user can hold the outer sides of the two protrusions 22 and squeeze Press the two arm portions 21, at this time, the elastic structure 23 connected to the two arm portions 21 will be elastically deformed, and the distance between the two arm portions 21 will be shortened, so that the user can relatively easily insert the card The coupling member 2 is placed in the accommodating groove 1A, and the two first pivot structures 24 and the two second pivot structures 12 can be engaged with each other relatively easily. After the user engages the two first pivot structures 24 with the two second pivot structures 12, the user only needs to no longer squeeze the two arm portions 21, and the elastic structure 23 will be elastic due to its own elasticity. The restoring force returns to the unpressed state, so that the two first pivot structures 24 and the two second pivot structures 12 are firmly connected to each other. In practical applications, the width of the accommodating groove 1A may be slightly smaller than the width of the engaging member 2 when it is squeezed by an external force, and the two first pivot structures 24 of the engaging member 2 are connected to the two second pivot joints. When the structures 12 are pivoted to each other, the elastic structure 23 can be slightly squeezed by the body 1, and the elastic restoring force of the elastic structure 23 will make each first pivot structure 12 better interact with the corresponding second pivot structure 24. connect.

On the contrary, when the relevant personnel want to take out the engaging member 2 from the accommodating groove 1A, the relevant personnel can simply squeeze the two arm portions 21 to move the two arm portions 21 toward each other. The two first pivot structures 24 are no longer pivotally connected to the two second pivot structures 12 , and relevant personnel can easily take out the engaging member 2 from the accommodating groove 1A.

As shown in Fig. 1, Fig. 3 to Fig. 5, it is worth mentioning that when the engaging member 2 is pivotally connected to the two second pivot structures 12 through the two first pivot structures 24, the elastic structure 23 will Correspondingly accommodated in the escape groove 1B of the body 1, and the depth of the escape groove 1B is not less than the thickness of the elastic structure 23, and when the engaging member 2 and the body 1 are pivotally connected to each other, the elastic structure 23 will not protrude from the bottom 13 on the bottom surface 131 of the bottom 13 , so that when the battery B is engaged and disposed in the accommodating groove 1A, the battery B will be smoothly disposed on the bottom surface 131 of the bottom 13 .

In addition, when the engaging member 2 is pivotally disposed in the accommodating groove 1A, the position of the elastic structure 23 farthest from the two arm portions 21 and the position of the avoidance groove 1B farthest from the side wall 15 of the accommodating groove 1A are two. There is a gap P between them, through the design of this gap P, the user installs the engaging member 2 on the body 1, or the user removes the engaging member 2 from the accommodating groove 1A During the process, the elastic structure 23 deformed by external force will not interfere with the bottom 13 .

Please refer to FIGS. 6 to 11 together. In practical applications, the side of each protruding portion 22 away from the elastic structure 23 may also have an inclined surface 221, and each protruding portion 22, arm portion 21 and elastic structure 23 An engaging groove 2A is formed together, and the two engaging grooves 2A of the engaging member 2 are used to hold one end of the battery B. In one specific application, the depth 2AH of each engaging groove 2A (as shown in FIG. 8 ) can be between 0.5 mm and 1.5 mm, but not limited thereto. The depth 2AH of the engaging groove 2A can be determined according to the battery B The corresponding change in thickness.

As shown in Figures 7 and 8, when the user intends to place the battery B in the accommodating slot 1A, the user may first engage one end of the battery B with the stop between the stop structure 11 and the bottom 13. Position slot 11A, and make the other end of battery B abut against the inclined surfaces 221 of the two protrusions 22 . As shown in FIGS. 8 to 10 , when the user engages one end of the battery B between the limiting structure 11 and the bottom 13 , and makes the other end of the battery B lean against the two inclined surfaces of the two protrusions 22 After the surface 221 is on, the user can then press the battery B to move the battery B toward the bottom 13. During this process, the battery B will move along the two inclined surfaces 221, and the engaging member 2 will be held by the battery B. Push against and rotate relative to the main body 1 , and the battery B will gradually enter into the two engaging grooves 2A formed by each protruding portion 22 , the arm portion 21 and the elastic structure 23 .

As shown in Figure 9 and Figure 11, when the battery B pushes against the two protrusions 22, the engaging member 2 will rotate relative to the body 1, and a part of the elastic structure 23 will leave the escape groove 1B; When leaning against the bottom 13, the battery B will press the elastic structure 23 at the same time, so that the elastic structure 23 returns to the escape groove 1B. When the battery B pushes against the elastic structure 23 to make the elastic structure 23 return to the escape groove 1B, the engaging member 2 will be driven as a whole and rotate relative to the main body 1 until the two protrusions 22 are engaged with the Top side B1 of battery B.

As shown in Figure 11, when the battery B is engaged in the accommodating groove 1A, one side of the battery B will be against the bottom 13 of the body 1, and the other side of the battery B will be bounded by two limiting structures 11 and two The protruding part 22 abuts against, and the two ends of the battery B are correspondingly located in the limiting groove 11A and the engaging groove 2A, and the battery B is supported by the bottom 13, the two limiting structures 11, the two protruding parts 22 and the elastic The structures 23 are jointly restricted and firmly engaged in the accommodating groove 1A.

As shown in Figures 9 to 11, when the user wants to take out the battery B in the engaging accommodating groove 1A, the user only needs to push the two protrusions 22 away from the battery B, so that the card The engaging member 2 rotates relative to the main body 1, so that the elastic structure 23 can lift the battery B from the position of the bottom 13 of the main body 1, and during the rotation of the engaging member 2 relative to the main body 1, the battery B will be separated from the two Engagement groove 2A.

As shown in Fig. 1, Fig. 8 to Fig. 10, the body 1 may also include two abutment structures 16, the two abutment structures 16 are connected with the body 1, and the two abutment structures 16 are located in the accommodation groove 1A, Two abutment structures 16 are arranged adjacent to the two arm portions 21 . When the engaging member 2 is subjected to an external force and is rotated by a predetermined angle relative to the accommodating groove 1A, the two arm portions 21 will abut against the two abutting structures 16, and the two abutting structures 16 are used to limit the engaging member 2 relative to each other. The rotation angle of the storage tank 1A.

As shown in Figure 9, through the design of the two abutting structures 16, when the two protruding parts 22 are pushed and the two arm parts 21 abut against the two abutting structures 16, the elastic structure 23 pushes the battery B When jacking up, the user can extend the finger to the bottom of the battery B through the gap S between the battery B and the side wall 15 of the main body 1 to lift the battery B up. As shown in Fig. 8 and Fig. 9, in a preferred embodiment, the horizontal distance W between each arm portion 21 and the abutment structure 16 can be between 2-5 millimeters, so that the user can easily place the finger Extends to the bottom of battery B through gap S.

Please refer to Fig. 4, Fig. 6 and Fig. 12 together, in one of them preferred embodiment, if the horizontal distance between two arm parts 21 is defined as a first distance D1, an inner side of elastic structure 23 and two The maximum vertical distance of the horizontal connection line of each arm portion 21 is defined as a second distance D2, then the first distance D1 can be 0.25～4 times of the second distance D2; The vertical distance between one end of the connected arm portion 21 is defined as a first vertical distance H1, and the vertical distance from the center of each first pivot structure 24 to the other end of the connected arm portion 21 is defined as a second vertical distance H2, the first vertical distance H1 can be 1.5 to 4.5 times the second vertical distance H2; the angle θ between the inclined surface 221 of each protrusion 22 and the horizontal line is between 45 and 55 degrees; through the above design, it can be made It is easier and faster for the user to install the battery B in the accommodating slot 1A, or to remove the battery B engaged in the accommodating slot 1A from the accommodating slot 1A.

Please refer to FIG. 13 , which is a schematic diagram of another embodiment of the engaging member of the present invention. The biggest difference between this embodiment and the previous embodiments is that the elastic structure 23A of the engaging member 2 may not be an arc-shaped structure, but a W-shaped structure. However, the appearance of the elastic structure 23A is not limited to the appearance shown in the accompanying drawings of this embodiment and the aforementioned embodiments, as long as the elastic structure 23A can be elastically deformed when the outer sides of the two arm portions 21 are squeezed, all It belongs to the applicable implementation range of the engaging member 2 of the present invention.

It should be noted that the engaging member 2 of the present invention can be manufactured, sold and implemented separately, and the engaging member 2 is not limited to be manufactured, sold and implemented together with the main body.

To sum up the above, the battery storage device of the present invention, through the design of the engaging member, can allow the user to easily install the battery in the storage slot without using other auxiliary tools, and the user can also easily Take out the battery snapped into the accommodating slot.

The above descriptions are only preferred feasible embodiments of the present invention, and do not limit the patent scope of the present invention. Therefore, all equivalent technical changes made by using the description and drawings of the present invention are included in the protection scope of the present invention.

Claims (15)

1. An engaging member, which is used to be installed in an accommodating groove of a battery accommodating device, the accommodating groove is used to accommodate at least one battery, and the engaging structure comprises: two arms; Two protrusions, one end of each arm extends to one side to form one protrusion; an elastic structure, which is connected to the other ends of the two arm parts, a part of each of the protruding parts is arranged towards the direction of the elastic structure, and each of the protruding parts and the elastic structure can jointly hold the A part of the battery; wherein, when the two arm portions are moved toward each other by an external force, the elastic structure elastically deforms; There are two first pivot structures, each of the arms is provided with one first pivot structure. 2. The engaging member according to claim 1, wherein a part of each of the protruding parts, a part of each of the arm parts and a part of the elastic structure jointly form an engaging groove, and the depth of the engaging groove is between In 0.5 ~ 1.5 mm. 3 . The engaging member according to claim 1 , wherein each of the protrusions has an inclined surface, and the included angle between the inclined surface and the horizontal line is between 45° and 55°. 4. The engaging member according to claim 1, wherein the elastic structure is an arc-shaped structure. 5. The engaging member according to claim 4, wherein the horizontal distance between the two arm portions is defined as a first distance, and the distance between the inner side of the elastic structure and the horizontal line connecting the two arm portions The maximum vertical distance is defined as the second distance, and the first distance is 0.25 to 4 times the second distance. 6. The engaging member according to claim 1, wherein the vertical distance from the center of each of the first pivot structures to one end of the arm portion to which it is connected is defined as a first vertical distance, and each of the The vertical distance from the center of the first pivot structure to the other end of the arm to which it is connected is defined as a second vertical distance, and the first vertical distance is 1.5 to 4.5 times the second vertical distance. 7. A battery accommodating device for accommodating a battery, the battery accommodating device comprising: The body, which includes an accommodation groove and an avoidance groove, the accommodation groove is used to accommodate the battery, the avoidance groove communicates with the accommodation groove, and the avoidance groove is formed from a bottom of the body concave formation; snapping member, which includes: two arms; Two protrusions, one end of each arm extends to one side to form one protrusion; an elastic structure, which is connected to the other ends of the two arm parts, a part of each of the protruding parts is arranged towards the direction of the elastic structure, and each of the protruding parts and the elastic structure can jointly hold the A part of the above-mentioned battery; wherein, when the two arm parts are subjected to an external force and move toward each other, the elastic structure elastically deforms; the escape groove is used to accommodate the elastic structure; the elastic When the structure is arranged in the escape groove, the elastic structure does not protrude from the bottom; Two first pivot structures, each of the arms is provided with one of the first pivot structures; Two second pivotal structures, which are arranged on the body, and the two second pivotal structures are located in the accommodating groove, the two second pivotal structures and the two first pivotal structures The connecting structures are pivotally connected to each other; the engaging member can be rotated relative to the body under the action of external force. 8. The battery accommodating device according to claim 7, wherein the battery accommodating device further comprises two abutting structures, the two abutting structures are connected with the body, and the two abutting structures The abutting structure is located in the accommodating groove, and the two abutting structures are arranged adjacent to the two arm parts; The arm portion will abut against the two abutting structures, and the two abutting structures are used to limit the rotation angle of the engaging member relative to the accommodating groove. 9 . The battery containing device according to claim 8 , wherein a horizontal distance between each of the arm portions and the abutting structure is between 2 mm and 5 mm. 10. The battery accommodating device according to claim 7, wherein a part of each of the protruding parts, a part of each of the arm parts and a part of the elastic structure together form an engaging groove, and the depth of the engaging groove is Between 0.5 and 1.5 mm. 11. The battery containing device according to claim 7, wherein each of the protrusions has an inclined surface, and the included angle between the inclined surface and the horizontal line is between 45° and 55°. 12. The battery containing device according to claim 7, wherein the elastic structure is an arc-shaped structure. 13. The battery housing device according to claim 12, wherein the horizontal distance between the two arms is defined as a first distance, and the horizontal line connecting the inner side of the elastic structure and the two arms The maximum vertical distance is defined as the second distance, and the first distance is 0.25 to 4 times the second distance. 14. The battery accommodating device according to claim 7, wherein the vertical distance from the center of each of the first pivot structures to one end of the arm portion to which it is connected is defined as a first vertical distance, and each of the pivot structures The vertical distance from the center of the first pivot structure to the other end of the arm portion to which it is connected is defined as a second vertical distance, and the first vertical distance is 1.5 to 4.5 times the second vertical distance. 15. The battery housing device according to claim 7, wherein the battery housing device further comprises two position-limiting structures disposed on the body, and the two position-limiting structures are located in the housing In the groove, the two limiting structures are located at the other end of the accommodating groove; the two limiting structures and the bottom jointly hold one end of the battery.

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