WO2024040949A1

WO2024040949A1 - Handle locking structure and electronic device

Info

Publication number: WO2024040949A1
Application number: PCT/CN2023/082626
Authority: WO
Inventors: 曹水春
Original assignee: 中兴通讯股份有限公司
Priority date: 2022-08-25
Filing date: 2023-03-20
Publication date: 2024-02-29
Also published as: CN117435002A

Abstract

Provided in the present disclosure are a handle locking structure and an electronic device. The handle locking structure comprises: a handle body, which is connected to a case module; a locking structure, which is connected to the case module and comprises a movably arranged lock tongue, the lock tongue having a locking position where the lock tongue extends out of an insertion hole in the case module and a release position where the lock tongue is received in the case module; an unlocking member, which is configured to move the lock tongue from the locking position to the release position; and a pressing assembly, which is rotatably connected to the handle body and is connected to the locking structure by means of the unlocking member. The pressing assembly is pressed to drive the unlocking member to move in the lengthwise direction of the case module, and at the same time, the unlocking member drives the lock tongue to move in the width direction of the case module.

Description

Handle locking structure and electronic equipment

Cross-references to related applications

This disclosure claims the priority of Chinese patent application CN202211028183.9 titled "Handle Locking Structure and Electronic Device" submitted on August 25, 2022, the entire content of which is incorporated into this disclosure by reference.

Technical field

The present disclosure relates to the technical field of electronic equipment, and specifically to a handle locking structure and electronic equipment.

Background technique

At present, most electronic equipment includes a chassis and a chassis module. The chassis module is provided with a lock tongue structure, and the corresponding part of the chassis is provided with a lock hole. When the chassis module is inserted into the chassis, the lock tongue mechanism is inserted into the lock hole to achieve Quick locking of chassis modules and chassis. In actual operations, since electronic equipment requires the use of chassis modules with different functions, the chassis modules need to be replaced frequently.

In some cases, in order to quickly unlock the chassis module and chassis, handles are welded on the chassis module that are easy for operators to hold. During operation, the operator holds the handle and directly pulls the chassis module out of the chassis. However, during the manual pulling process, it is easy to cause damage to the chassis module and the chassis, seriously affecting the service life of the electronic equipment; moreover, the manual pulling method brings great inconvenience to the use of the electronic equipment.

Contents of the invention

The present disclosure provides a handle locking structure and electronic equipment to at least solve the technical problems of short service life and inconvenient use of electronic equipment in related technologies.

In a first aspect, the present disclosure provides a handle locking structure, including: a handle body connected to a chassis module; a locking structure connected to the chassis module; the locking structure includes a movably arranged lock tongue, and the lock tongue has a function extending out of the chassis The locking position of the module jack and the releasing position contained in the chassis module; the unlocking piece is used to move the lock tongue from the locking position to the releasing position; and the pressing component is rotatably connected to the handle body, and the pressing component is unlocked by The component is connected to the locking structure; the pressing component is pressed to drive the unlocking component to move in the length direction of the chassis module, and at the same time, the unlocking component drives the lock tongue to move in the width direction of the chassis module.

In a second aspect, the present disclosure also provides an electronic device, including: a machine frame provided with a keyhole; a case module movably connected to the machine frame; the case module is provided with the above handle locking structure, and the handle locking structure The lock tongue is used to snap into the lock hole.

Description of drawings

The drawings described here are used to provide a further understanding of the present disclosure and constitute a part of the present disclosure. The illustrative embodiments of the present disclosure and their descriptions are used to explain the present disclosure and do not constitute an improper limitation of the present disclosure. In the attached picture:

Figure 1 is an assembly diagram of the handle locking structure and chassis module provided by the present disclosure;

Figure 2 is a first perspective exploded view of the handle locking structure provided by the present disclosure;

Figure 3 is a second perspective exploded view of the handle locking structure provided by the present disclosure;

Figure 4 is a side view of the handle locking structure provided by the present disclosure;

Figure 5 is a bottom view of the handle locking structure provided by the present disclosure;

Figure 6 is a schematic three-dimensional structural diagram of the limiting member provided by the present disclosure;

Figure 7 is a schematic three-dimensional structural diagram of the lock tongue provided by the present disclosure;

Figure 8 is a schematic structural diagram of the pressing assembly provided by the present disclosure from a first perspective;

Figure 9 is a schematic structural diagram of the pressing assembly provided by the present disclosure from a second perspective;

Figure 10 is an assembly diagram of the chassis module and chassis provided by the present disclosure;

Figure 11 is a top cross-sectional view of Figure 10;

FIG. 12 is a partial enlarged view of α in FIG. 11 .

Explanation of reference symbols:

100. Handle locking structure; 110. Handle body; 120. Locking structure; 121. Lock tongue; 1211. Second avoidance passage; 1212. Driving part; 1213. Shrapnel; 1214. Elastic connection part; 122. Limiting member ; 1221. First avoidance aisle; 1222. U-shaped groove; 1223. Connection flange; 1224. Limiting flange; 123. First elastic member; 130. Unlocking member; 131. Inclined section; 132. Limiting section ; 140. Pressing component; 141. Pressing member; 142. Transmission member; 143. Pin member; 144. Second elastic member; 200. Chassis module; 300. Machine frame; X, width direction; Y, length direction; Z , height direction.

Detailed ways

The present disclosure will be described in detail below in conjunction with embodiments with reference to the accompanying drawings. It should be noted that, as long as there is no conflict, the embodiments and features in the embodiments of the present disclosure can be combined with each other.

It should be noted that the terms "first", "second", etc. in the description and claims of the present disclosure and the above-mentioned drawings are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.

Figure 1 shows an assembly diagram of the handle locking structure and the chassis module provided by the disclosure; Figure 2 shows an exploded view of the handle locking structure provided by the disclosure from a first perspective; Figure 3 shows a second perspective provided by the disclosure An exploded view of the handle locking structure; Figure 4 shows a side view of the handle locking structure provided by the present disclosure after assembly, where A represents the movement direction of the pressing component after being subjected to external pressing force, and B represents the unlocking member driven by the pressing component. The direction of movement below; Figure 5 shows a bottom view of the handle locking structure provided by the present disclosure after assembly, in which B represents the movement direction of the unlocking member, and C represents the movement direction of the lock tongue driven by the unlocking member; Figure 6 shows A schematic three-dimensional structural view from a first perspective after the pressing assembly and the unlocking member are connected according to the present disclosure; Figure 7 shows a schematic three-dimensional structural view from a second perspective after the pressing assembly and the unlocking piece are connected according to the present disclosure; Fig. 8 shows the present disclosure A schematic three-dimensional structural view of the limiting member is provided; FIG. 9 shows a schematic three-dimensional structural view of the lock tongue provided by the present disclosure.

In a first aspect, referring to FIGS. 1 to 5 , the present disclosure provides a handle locking structure, including: a handle body 110 , a locking structure 120 , an unlocking piece 130 and a pressing assembly 140 .

The handle body 110 is connected to the chassis module 200. The locking structure 120 is connected to the chassis module 200; the locking structure 120 includes a movable locking tongue 121. The locking tongue 121 has a locking position extending out of the socket of the chassis module 200 and a release position contained in the chassis module 200. The unlocking piece 130 is used to move the lock tongue 121 from the locking position to the releasing position; and the pressing assembly 140 is rotatably connected to the handle body 110. The pressing assembly 140 is connected to the locking structure 120 through the unlocking piece 130; pressing the pressing assembly 140 , so as to drive the unlocking part 130 to move in the length direction Y of the chassis module 200 , and at the same time, the unlocking part 130 drives the lock tongue 121 to move in the width direction X of the chassis module 200 .

In this embodiment, the handle locking structure 100 is provided on the chassis module 200 to optimize the locking/unlocking method of the chassis module 200 and the chassis 300 . In this embodiment, the handle locking structure 100 is configured as a combined component including at least a handle body 110 , a locking structure 120 , an unlocking piece 130 and a pressing assembly 140 . The handle body 110 is connected to the outside of the chassis module 200. The locking structure 120 is provided in the chassis module 200. The pressing component 140 is rotationally connected to the handle body 110, and one end of the pressing component 140 extends into the chassis module 200. The unlocking The component 130 is connected to one end of the pressing component 140 that extends into the chassis module 200 , and the unlocking component 130 is connected to the locking structure 120 . In this way, when the operator presses the pressing assembly 140, the unlocking member 130 is driven to move in a direction away from the handle body 110. At the same time, the unlocking member 130 drives the locking structure 120 to be linked, so that the lock tongue 121 is released from the lock. The tight position is moved to the loose position, thereby realizing the loosening of the chassis module 200 and the chassis 300. At this time, the operator directly pulls out the chassis module 200 to realize the unlocking of the chassis module 200 and the chassis 300; when the operator puts the After the pressing assembly 140 is opened, the pressing assembly 140 returns to its original position and drives the unlocking member 130 to move in a direction close to the handle body 110. At the same time, the unlocking member 130 drives the locking structure 120 to interlock so that the lock tongue 121 returns to the released position. To the locking position, at this time, the lock tongue 121 of the chassis module 200 that has been inserted into the chassis module 200 is inserted into the lock hole of the chassis module 300, so that the chassis module 200 and the chassis 300 can be locked. It should be understood that the above unlocking/locking operation process keeps the unlocking member 130 reciprocating in the length direction Y of the chassis module 200, and at the same time keeps the lock tongue 121 reciprocating in the width direction X of the chassis module 200.

In this way, by configuring the handle locking structure 100 on the chassis module 200 to avoid directly pulling to unlock the chassis module 200 and the chassis 300, it is beneficial to improve the convenience of use of the electronic device and extend the service life of the electronic device. For example, but not limited to, the handle locking structure 100 can be applied to a fan box module or a power box module.

In addition, the handle locking structure 100 is easy to operate. Operators can work with one hand by just pressing the pressing assembly 140. The operation feels good, which is conducive to improving the customer experience of electronic equipment and improving the stability of the chassis module 200 and the chassis 300. Disassembly and assembly efficiency.

Referring to Figures 2 and 3, in one example, the handle body 110 includes a handheld transverse section and a connecting longitudinal section connected between the handheld transverse section and the chassis module 200. The handheld transverse section and the connecting longitudinal section can be integrally formed. The handheld transverse section is arranged opposite to the chassis module 200. An assembly slot is provided on the side of the handheld transverse section facing the chassis module 200. The pressing component 140 is accommodated in the mounting slot, which is equivalent to placing the pressing component 140 inside the handle body 110. Pressing The component 140 is not easily pressed by mistake, causing the lock tongue 121 to be in the released position, which improves the reliability of the handle locking structure 100 .

In an exemplary embodiment, the pressing component 140 is half-accommodated in the assembly groove, so as to facilitate the operator to apply force to the pressing component 140 . Further improve the user experience.

For example, but not limited to, the handheld transverse section of the handle body 110 extends along the length direction Y of the chassis module 200, the connecting longitudinal section extends along the height direction Z of the chassis module 200, and the jack and handle locking structure 100 of the chassis module 200 are provided on the chassis. adjacent two sides of the module 200 , and the jack of the chassis module 200 extends along the width direction X of the chassis module 200 . There are two connecting longitudinal sections, and the two connecting longitudinal sections are respectively connected to the opposite sides of the handheld transverse section to form a C-shaped structural member enclosed with the handheld transverse section. The connection of the longitudinal sections can be achieved by fasteners such as screws/bolts The connection to the chassis module 200 is now tightened.

Referring to FIGS. 2 to 6 , in one possible implementation, the locking structure 120 further includes a limiting member 122 , the limiting member 122 is connected to the chassis module 200 , and the limiting member 122 has a cross-section extending along the width direction X of the chassis module 200 . The lock tongue 121 can be movably connected to the movable groove.

In this embodiment, the specific composition of the locking structure 120 is optimized. Specifically, the locking structure 120 is configured to include at least a combined component of a locking tongue 121 and a limiting member 122 , and the locking tongue 121 is movably connected to the movable groove of the limiting piece 122 . The limiting member 122 is used to limit the movement direction of the unlocking member 130 so that the unlocking member 130 moves in a desired direction, thereby making the movement direction of the lock tongue 121 controllable, which is beneficial to improving the operational stability of the handle locking structure 100 .

Referring to FIG. 6 , in one possible implementation, the limiting member 122 is provided with a first escape passage 1221 , the first escape passage 1221 extends along the length direction Y of the chassis module 200 , and the lock tongue 121 is provided with a second escape passage. Aisle 1211, the second avoidance aisle 1211 is set at an angle to the first avoidance aisle 1221;

The unlocking member 130 passes through the second avoidance passage 1211 and the first avoidance passage 1221 in sequence to reciprocate along the first avoidance passage 1221 and at the same time drive the lock tongue 121 to reciprocate in the width direction X of the chassis module 200 .

In this embodiment, the specific structures of the limiting member 122 and the locking tongue 121 are optimized to optimize the cooperation between the limiting member 122 and the locking tongue 121 and the unlocking member 130 . In this embodiment, a first avoidance channel 1221 is provided on the limiting member 122, and a second avoidance channel 1211 is provided on the lock tongue 121. The first avoidance channel 1221 and the second avoidance channel 1211 are overlapped, and There is an aisle intersection point in the height direction Z of the chassis module 200, so that the unlocking member 130 can pass through the second avoidance aisle 1211 and the first avoidance aisle 1221 at the same time, thereby limiting the movement direction of the unlocking member 130 through the first avoidance aisle 1221. , at the same time, the linkage between the unlocking piece 130 and the lock tongue 121 is realized through the second avoidance passage 1211, so that the unlocking piece 130 moves along the extension direction of the first avoidance passage 1221, and the lock tongue 121 moves along the extension direction perpendicular to the first avoidance passage 1221. , in this way, the pressing force exerted by the user to retract the lock tongue 121 is reduced, which is beneficial to improving the user experience.

In an exemplary embodiment, the lock tongue 121 includes two opposite inclined surfaces, and the two inclined surfaces are spaced apart to form a second avoidance passage 1211 . The first avoidance passage 1221 is arranged vertically, and the second avoidance passage 1211 is arranged inclined downward from left to right. When the unlocking member 130 acts on the inclined surface below, and at the same time, under the limiting effect of the first avoidance passage 1221, the lock tongue 121 moves to the left until the lock tongue 121 is in the released position; when the unlocking member 130 When 130 acts on the inclined surface above, at the same time, under the limiting action of the first avoidance aisle 1221, the The locking tongue 121 moves to the right until the locking tongue 121 is in the locking position. In this way, through the cooperation of the first escape passage 1221 and the second escape passage 1211, the linkage of the unlocking member 130 and the lock tongue 121 is achieved.

Referring to Figure 6, in one possible implementation, the limiting member 122 includes a U-shaped groove portion 1222 and two connecting flanges 1223. The two connecting flanges 1223 are respectively connected to opposite sides of the U-shaped groove portion 1222. The connecting flange 1223 and the U-shaped groove portion 1222 extend in the same direction;

The first escape passage 1221 runs through the bottom wall of the U-shaped groove part 1222, and the lock tongue 121 is movably connected to the U-shaped groove part 1222.

In this embodiment, the specific structure of the limiting member 122 is optimized. In this embodiment, the limiting member 122 is configured as a combined component including at least a U-shaped groove portion 1222 and two connecting flanges 1223. The connecting flanges 1223 are used to connect with the inner wall of the chassis module 200 to achieve position limiting. The U-shaped groove portion 1222 is used to cooperate with the lock and provide a movable groove for the lock tongue 121. It should be understood that the movable groove of the limiting member 122 is arranged corresponding to the socket of the chassis module 200. In this way, when the lock tongue 121 moves in the movable groove of the limiting component 122, it can extend out of the socket of the chassis module 200. And the chassis module 200 is exposed, so as to cooperate with the key hole of the chassis 300 to complete the locking of the chassis module 200 and the chassis 300 .

For example, but not limited to, the connection flange 1223 is connected and fastened to the inner wall of the chassis module 200 through fasteners such as screws/bolts.

In one example, in order to further improve the tightness of the connection between the limiting member 122 and the chassis module 200, two spaced limiting grooves are provided on the chassis module 200, and two limiting grooves are provided on the limiting member 122. The limit flange 1224 is vertically connected to the side of the connecting flange 1223 away from the U-shaped groove portion 1222, and the limit flange 1224 protrudes in a direction away from the U-shaped groove portion 1222. The flange 1224 is inserted into the limiting slot to realize the snap connection between the limiting member 122 and the chassis module 200 . In addition, the cooperation of the limiting flange 1224 with the limiting groove can also improve the operational stability of the limiting member 122 and facilitate the assembly of the connecting flange 1223 and the chassis module 200 .

Referring to Figure 7, in one possible implementation, the lock tongue 121 includes a driving part 1212 and two elastic pieces 1213, and the two elastic pieces 1213 are respectively connected to opposite sides of the driving part 1212;

The second avoidance channel 1211 passes through the driving part 1212, and the second avoidance channel 1211 is stacked on the side of the first avoidance channel 1221 facing the handle body 110.

In this embodiment, the specific structure of the lock tongue 121 is optimized. In this embodiment, the lock tongue 121 is configured as a combined component including at least a driving part 1212 and two elastic pieces 1213. The driving part 1212 and the two elastic pieces 1213 Enclosed to form a C-shaped component. When the lock tongue 121 is received in the movable groove of the limiting member 122, the driving part 1212 contacts the bottom wall of the U-shaped groove part 1222, and the two elastic pieces 1213 respectively contact the two side walls of the U-shaped groove part 1222. The second avoidance passage 1211 is provided on the driving part 1212 at an angle, and the first avoidance passage 1221 is provided on the bottom wall of the U-shaped groove part 1222. In this way, the second avoidance passage 1211 and the first avoidance passage 1221 are stacked to form an X shape, the unlocking piece 130 passes through the intersection of X to be connected to the lock tongue 121 and the limiting piece 122 at the same time.

For example, but not limited to, the driving part 1212 is a driving plate, the second avoidance passage 1211 is inclinedly provided on the driving plate, the unlocking member 130 acts on the driving plate, and the driving plate drives the two elastic pieces 1213 to move.

Referring to FIGS. 11 and 12 , in a possible implementation, the locking structure 120 further includes a first elastic member 123 , and the first elastic member 123 is connected between the lock tongue 121 and the chassis module 200 .

In this embodiment, the specific configuration of the locking structure 120 is optimized. In this embodiment, the locking structure 120 is configured to include at least a combined component of a movably arranged lock tongue 121 and a first elastic member 123. The first elastic member 123 is used to provide elastic force to the lock tongue 121 so that the lock can The tongue 121 moves from the released position to the locked position. For example, but not limited to, the first elastic member 123 is a spring or a soft elastic body.

Referring to Figure 7, in an example, the lock tongue 121 includes a driving part 1212, two elastic pieces 1213 and an elastic connection part 1214. The three adjacent sides of the elastic connection part 1214 are respectively connected to the two elastic pieces 1213 and the driving part 1212. In this way, a blocking portion is formed between the two elastic pieces 1213 . The elastic connection portion 1214 is provided with a connecting post that cooperates with the first elastic member 123 . The connecting post and the elastic piece 1213 are respectively located on both sides of the elastic connection portion 1214 . One end of the first elastic member 123 is in contact with the chassis module 200 On the inner wall, the other end is sleeved outside the connecting column and abuts against the elastic connecting portion 1214. In this way, the elastic connection between the lock tongue 121 and the chassis module 200 is achieved through the first elastic member 123. For example, but not limited to, the driving part 1212 is a driving plate, and the elastic connecting part 1214 is an elastic connecting plate.

Referring to Figures 8 and 9, in one possible implementation, the pressing assembly 140 includes a vertically connected pressing member 141 and a transmission member 142. The connection between the pressing member 141 and the transmission member 142 is rotationally connected to the handle body 110; the unlocking member 130 is connected to an end of the transmission member 142 away from the pressing member 141 .

In this embodiment, the specific structure of the pressing component 140 is optimized. In this embodiment, the pressing assembly 140 is configured as a combined component including at least a pressing member 141 and a transmission member 142. The transmission member 142 is vertically connected to one end of the pressing member 141 to form an L-shaped member. The unlocking member 130 is connected to the transmission member 142 and extends in the same direction as the transmission member 142 .

In an example, the pressing assembly 140 further includes a pin member 143 . The handle body 110 has a hand-held transverse section and A rotation hole is provided at the connection connecting the longitudinal sections, and a through hole is provided at the connecting end of the pressing member 141 and the transmission member 142. The pin member 143 passes through the through hole and is inserted into the rotation hole to realize the connection between the pressing member 141 and the handle. The body 110 is rotatably connected. The pressing member 141 is rotatably connected to the hand-held transverse section of the handle body 110 , and the transmission member 142 is movably connected to the connecting longitudinal section of the handle body 110 .

In one example, the pressing member 141 and the transmission member 142 are integrally formed. Alternatively, the pressing member 141, the transmission member 142 and the unlocking member 130 are integrally formed.

Referring to FIGS. 2 to 4 , in a possible implementation, the pressing component 140 further includes a second elastic member 144 , and the second elastic member 144 is connected between the pressing member 141 and the handle body 110 .

In this embodiment, the specific structure of the pressing component 140 is further optimized. In this embodiment, the pressing component 140 is configured as a combined component including at least a pressing member 141, a transmission member 142 and a second elastic member 144. The pressing member 141 is rotationally connected to the handle body 110, and the transmission member 142 is connected to the pressing member. 141. The second elastic member 144 is disposed between the pressing member 141 and the handle body 110. In this way, after the user releases the pressing force on the pressing member 141, the second elastic member 144 can drive the pressing member 141 to return to its original state. position, at the same time, the transmission member 142 is driven by the pressing member 141 to return to the original position, the unlocking member 130 is driven by the transmission member 142 to return to the original position, and the lock tongue 121 is driven by the unlocking member 130 to return to the locking position.

For example, but not limited to, the second elastic member 144 is a spring or a soft elastic body.

In one example, the pressing member 141 is provided with an elastic connection groove on one side toward the handle body 110 , and the elastic connection groove extends in a direction away from the handle body 110 ; at the same time, a limiting column is provided on the handle body 110 , and the limiting column is connected to the handle body 110 . The elastic connection grooves are arranged oppositely, and the limiting column extends toward the elastic connection groove. One end of the second elastic member 144 is sleeved outside the limiting column, and the other end is received in the elastic connection groove. In this way, the elastic connection between the pressing member 141 and the handle body 110 is achieved.

Referring to Figures 8 and 9, in a possible implementation, the unlocking member 130 includes an inclined section 131 and a limiting section 132. The inclined section 131 is connected to the pressing assembly 140. In the direction away from the pressing assembly 140, the inclined section 131 Gradually expand.

In this embodiment, the specific structure of the unlocking member 130 is optimized. In this embodiment, the unlocking member 130 is configured as a combined component including at least an inclined section 131 and a limiting section 132 . The inclined section 131 is disposed between the pressing assembly 140 and the limiting section 132 , and is located between the chassis module 200 and the chassis module 200 . In the width direction X, the connection between the inclined section 131 and the limiting section 132 protrudes from the pressing component 140 . The inclined section 131 acts on the lock tongue 121, and when the vertical unlocking member The extension direction of 130 provides the lock tongue 121 with a displacement amount.

In one example, the inclined section 131 is similar to a flat mouth structure, with two inclined surfaces provided thereon. The two inclined surfaces are arranged opposite each other, and the closer to the limiting section 132 , the larger the opening between the two inclined surfaces becomes. The limiting section 132 has a rectangular parallelepiped structure. In the extending direction of the vertical unlocking member 130 , the size of the limiting section 132 is greater than or equal to the size of the inclined section 131 . In this way, the unlocking member 130 is shaped like a bottle.

In another example, the inclined section 131 is similar to a flat-mouth structure, with two inclined surfaces provided thereon. The two inclined surfaces are arranged opposite each other, and the closer to the limiting section 132 , the larger the opening between the two inclined surfaces becomes. The limiting section 132 is also similar to a flat mouth structure, and is also provided with two inclined surfaces. The two inclined surfaces are arranged oppositely, and the closer to the inclined section 131, the larger the opening between the two inclined surfaces is. In this way, the unlocking member 130 has a spindle shape.

Figure 10 shows an assembly diagram when the chassis module provided by the present disclosure is assembled to the chassis; Figure 11 shows the side cross-sectional view in Figure 10 provided by the present disclosure, where C represents the movement direction of the lock tongue; Figure 12 shows The present disclosure provides a partial enlarged view of α in Figure 11, where C represents the movement direction of the lock tongue.

Referring to FIGS. 10 to 12 , in a second aspect, the present disclosure also provides an electronic device, including: a chassis 300 and a chassis module 200 . The machine frame 300 is provided with a lock hole; the case module 200 is movably connected to the machine frame 300; the case module 200 is provided with the above handle locking structure 100, and the lock tongue 121 of the handle locking structure 100 is used for snapping in the keyhole.

In this embodiment, the chassis has an accommodating cavity for plugging in the chassis module 200, and the keyhole is provided on the side wall of the accommodating cavity. When the chassis module 200 is inserted into the accommodation cavity of the chassis 300, the lock tongue 121 of the handle locking structure 100 is inserted into the lock hole, so as to realize the connection and tightening of the chassis module 200 and the chassis 300; when it is necessary to When unlocking the chassis module 200 and the chassis 300, just press the pressing component 140 of the handle locking structure 100. The operation is simple and user-friendly.

Of course, the specific structure of the handle locking structure 100 refers to the above-mentioned embodiments. Since this electronic device adopts all the technical solutions of all the above-mentioned embodiments, it at least has all the beneficial effects brought by the technical solutions of the above-mentioned embodiments. Herein I won’t go into details one by one.

According to the handle locking structure and electronic equipment provided by the present disclosure, the handle locking structure includes: the handle body is connected to the chassis module; the locking structure is connected to the chassis module; the locking structure includes a movable lock tongue, and the lock tongue has The locking position extending out of the chassis module jack and the releasing position contained in the chassis module; the unlocking member is used to move the lock tongue from the locking position to the releasing position; and the pressing component is rotatably connected to the handle body and pressed Component Pass The unlocking piece is connected to the locking structure; the pressing component is pressed to drive the unlocking piece to move in the length direction of the chassis module, and at the same time, the unlocking piece drives the lock tongue to move in the width direction of the chassis module. The disclosed technical solution optimizes the locking/unlocking method of the chassis module and the chassis by arranging a handle locking structure on the chassis module. In this embodiment, the handle locking structure is configured as a combined component including at least a handle body, a locking structure, an unlocking piece, and a pressing component. The handle body is connected to the outside of the chassis module, and the locking structure is provided in the chassis module. , the pressing component is rotationally connected to the handle body, and one end of the pressing component extends into the interior of the chassis module, the unlocking piece is connected to one end of the pressing component that extends into the interior of the chassis module, and the unlocking piece is connected to the locking structure. In this way, when the operator presses the pressing assembly, the unlocking piece is driven to move in the direction away from the handle body. At the same time, the unlocking piece drives the locking structure to linkage, so that the lock tongue moves from the locking position to the releasing position, thereby realizing the connection between the chassis module and the handle. When the chassis is released, the operator can directly pull out the chassis module to unlock the chassis module and chassis. When the operator releases the pressing component, the pressing component returns to its original position and drives the unlocking piece closer. The handle body moves in the direction, and at the same time, the unlocking piece drives the locking structure to linkage, so that the lock tongue returns from the loosened position to the locked position. At this time, the lock tongue of the chassis module that has been inserted into the chassis is inserted. Complete the locking of the chassis module and the chassis in the keyhole of the chassis. In this way, by configuring the handle locking structure on the chassis module to avoid directly pulling to unlock the chassis module and chassis, the convenience of use of the electronic device is improved and the service life of the electronic device is extended. In addition, the handle locking structure is easy to operate and can be operated with one hand, which effectively improves the disassembly and assembly efficiency. Through the present disclosure, the problems of short service life and inconvenient use of electronic equipment are solved.

Obviously, those skilled in the art should understand that the above-mentioned modules or steps of the present disclosure can be implemented using general-purpose computing devices, and they can be concentrated on a single computing device, or distributed across a network composed of multiple computing devices. , optionally, they may be implemented in program code executable by a computing device, such that they may be stored in a storage device for execution by the computing device, and in some cases, may be in a sequence different from that herein. The steps shown or described are performed either individually as individual integrated circuit modules, or as multiple modules or steps among them as a single integrated circuit module. As such, the present disclosure is not limited to any specific combination of hardware and software.

The above descriptions are only preferred embodiments of the present disclosure and are not intended to limit the present disclosure. For those skilled in the art, the present disclosure may have various modifications and changes. Any modifications, equivalent substitutions, improvements, etc. made within the principles of this disclosure shall be included in the protection scope of this disclosure.

Claims

A handle locking structure includes:

The handle body is connected to the chassis module;

The locking structure is connected to the chassis module; the locking structure includes a movable locking tongue, which has a locking position extending out of the chassis module jack and a release position contained in the chassis module;

an unlocking member for moving the lock tongue from the locking position to the releasing position; and

The pressing component is rotatably connected to the handle body, and the pressing component is connected to the locking structure through the unlocking piece; the pressing component is pressed to drive the unlocking piece to move in the length direction of the chassis module, and at the same time , the unlocking piece drives the lock tongue to move in the width direction of the chassis module.
The handle locking structure according to claim 1, wherein the locking structure further includes a limiting member, the limiting member is connected to the chassis module, and the limiting member has a groove extending along the width direction of the chassis module. A movable groove, the lock tongue can be movably connected to the movable groove.
The handle locking structure according to claim 2, wherein the limiting member is provided with a first escape passage, the first escape passage extends along the length direction of the chassis module, and the lock tongue is provided with a second escape passage. An avoidance aisle, the second avoidance aisle is arranged at an angle to the first avoidance aisle;

The unlocking piece passes through the second avoidance passage and the first avoidance passage in sequence to reciprocate along the first avoidance passage, and at the same time drives the lock tongue to reciprocate in the width direction of the chassis module sports.
The handle locking structure according to claim 3, wherein the limiting member includes a U-shaped groove part and two connecting flanges, and the two connecting flanges are respectively connected to two opposite sides of the U-shaped groove part. On the side, the connecting flange extends in the same direction as the U-shaped groove;

The first escape passage runs through the bottom wall of the U-shaped groove portion, and the lock tongue is movably connected to the U-shaped groove portion.
The handle locking structure according to claim 4, wherein the lock tongue includes a driving part and two elastic pieces, and the two elastic pieces are respectively connected to opposite sides of the driving part;

The second escape passage runs through the driving part, and is stacked on a side of the first escape passage facing the handle body.
The handle locking structure according to claim 1, wherein the locking structure further includes a first elastic member, The first elastic member is connected between the lock tongue and the chassis module.
The handle locking structure according to claim 1, wherein the pressing assembly includes a pressing member and a transmission member that are vertically connected, and the connection between the pressing member and the transmission member is rotationally connected to the handle body; The unlocking component is connected to an end of the transmission component away from the pressing component.
The handle locking structure according to claim 7, wherein the pressing component further includes a second elastic member, and the second elastic member is connected between the pressing member and the handle body.
The handle locking structure according to claim 1, wherein the unlocking member includes a connecting inclined section and a limiting section, the inclined section is connected to the pressing component, and in a direction away from the pressing component, the The inclined section gradually expands.
An electronic device including:

The machine frame is equipped with a keyhole;

The chassis module is movably connected to the chassis; the chassis module is provided with a handle locking structure as claimed in any one of claims 1 to 9, and the lock tongue of the handle locking structure is used to snap into place. Describe the keyhole.