CN214507148U - Electronic equipment assembly and data line - Google Patents

Abstract

The application discloses electronic equipment subassembly and data line belongs to consumer electronics equipment technical field, the electronic equipment subassembly includes: the electronic equipment is provided with a clamping groove, a card holder is detachably arranged in the clamping groove, a push-out mechanism is arranged in the electronic equipment and is arranged at one end, deep into the clamping groove, of the card holder, and a socket is formed in the electronic equipment and is close to the card holder; the plug of the data line can be inserted into the socket, and the plug is provided with an ejection mechanism; the ejection mechanism can be switched between a first state and a second state; when the ejection mechanism is in the first state, a gap is formed between the ejection mechanism and the push-out mechanism; when the ejection mechanism is in the second state, the ejection mechanism extrudes the ejection mechanism to drive the ejection mechanism to eject the card support out of the card slot.

Description

Electronic equipment assembly and data line

Technical Field

The application belongs to the field of consumer electronics, and particularly relates to an electronic equipment assembly and a data line.

Background

Along with the development of mobile technology, electronic equipment is more and more common and frequent in use, the card support of the current electronic equipment mainly depends on a card support thimble in the installation or taking-out process, the card support thimble is inserted into a card support hole, the card support ejector rod is pushed by the thimble, and a silica gel ejector rod in a card slot is indirectly pushed, so that the card support is ejected out of the card slot, and a user can conveniently load an SIM card or take the SIM card out.

However, the card support thimble utilization rate is crossed and is relatively sharp, most users cannot carry the card support thimble with them, and the card support thimble is very easy to lose. When a user needs to take, replace or mount a card, the situation that the card support cannot be opened by the user is caused because the card support thimble is not carried with the user or the card support thimble is lost.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide an electronic equipment assembly and a data line, and the problem that a card support of electronic equipment is not easy to open can be solved.

In a first aspect, an embodiment of the present application provides an electronic device assembly, including:

the electronic equipment is provided with a clamping groove, a card holder is detachably arranged in the clamping groove, a push-out mechanism is arranged in the electronic equipment and is arranged at one end, deep into the clamping groove, of the card holder, and a socket is formed in the electronic equipment and is close to the card holder;

the plug of the data line can be inserted into the socket, and the plug is provided with an ejection mechanism;

when the ejection mechanism is in a first state, a gap is formed between the ejection mechanism and the push-out mechanism;

when the ejection mechanism is in a second state, the ejection mechanism extrudes the push-out mechanism, and the push-out mechanism pushes the card support out of the card slot;

pressing the ejection mechanism can enable the ejection mechanism to be converted from a first state to a second state.

In a second aspect, embodiments of the present application provide a data line, which includes a housing, a plug, and an ejection mechanism; the plug part protrudes out of the shell, and the plug can be inserted into a matched socket; the ejection mechanism comprises a push rod and a thimble, the push rod is movably arranged in the shell, the push rod extends into the plug from the shell, one end of the push rod protrudes out of one end of the shell far away from the plug, the thimble is arranged in the plug, a second inclined plane is arranged on the thimble, the end part of the push rod can extrude the second inclined plane by pressing the push rod, and the thimble extends out of the plug; a first elastic piece and a second elastic piece are respectively arranged in the shell and the plug corresponding to the push rod and the thimble, the push rod is pressed, the first elastic piece is in an elongated state, and the second elastic piece is in a compressed state; the ejection mechanism can be switched between a first state and a second state, and when the ejection mechanism is in the first state, a gap is formed between the push rod and the ejector pin; when the ejection mechanism is in the second state, the push rod extrudes the ejector pin, and the ejector pin penetrates out of the side wall of the plug.

In this application embodiment, ejection mechanism sets up on the data line, is difficult for losing and convenient to use, when the user need open the operation that the card held in the palm, only needs to insert the plug of data line in electronic equipment's the socket, promotes ejection mechanism and can block the separation of holding in the palm and draw-in groove, and it is very convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of an electronic device assembly in a first state of an ejection mechanism according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of an electronic device assembly in a second state of an ejection mechanism in an embodiment of the present application;

FIG. 3 is a schematic view showing the structure of the ejector mechanism in the embodiment of the present application;

FIG. 4 is a schematic structural diagram of an ejection mechanism in an embodiment of the present application;

fig. 5 is a schematic structural view of the ejection mechanism in the first state according to the embodiment of the present application;

FIG. 6 is one of the partial enlarged views of FIG. 5;

FIG. 7 is a second enlarged view of the portion of FIG. 5;

fig. 8 is a schematic structural view of the ejection mechanism in a second state in the embodiment of the present application;

FIG. 9 is one of the partial enlarged views of FIG. 8;

fig. 10 is a second enlarged view of the portion of fig. 8.

Reference numerals

1. An electronic device; 11. a push-out mechanism; 111. a first link; 1111. a first chute; 112. a second link; 1121. a second chute; 113. a third link; 114. a fixed block; 115. a push block; 116. a first rotating shaft; 117. a second rotating shaft; 12. a card slot; 13. clamping and supporting; 131. a first inclined plane; 14. a socket; 2. A data line; 21. a plug; 22. an ejection mechanism; 221. a push rod; 222. a thimble; 2221. a second inclined plane; 23. a housing; 24. a first elastic member; 25. a second elastic member.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

An electronic device assembly and a data line provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

In a first aspect, an embodiment of the present application provides an electronic device assembly as shown in fig. 1 to 10, including:

the electronic device 1 is provided with a card slot 12, a card holder 13 is detachably arranged in the card slot 12, a push-out mechanism 11 is arranged in the electronic device 1, the push-out mechanism 11 is arranged at one end, deep into the card slot 12, of the card holder 13, and a socket 14 is arranged on the electronic device 1, close to the card holder 13; the card slot 12 of the electronic device 1 is used for accommodating the card holder 13, the card holder 13 is used for installing the SIM card, and the card holder 13 is inserted into the card slot 12 to implement the GSM network function of the electronic device 1. The card holder 13 is not limited to mounting a SIM card, and a memory card may also be connected to the electronic device 1 through the card holder 13.

A data line 2, wherein a plug 21 of the data line 2 can be inserted into the socket 14, and the plug 21 is provided with an ejection mechanism 22; the data line 2 may be a wire of any interface such as a TYPE-C interface, an LIGHENING interface, and a MICRO-USB interface. The plug 21 of the data line 2 is inserted into the jack 14, and can charge the electronic device 1 or transmit data.

The ejection mechanism 22 is switchable between a first state and a second state. When the ejection mechanism 22 is in the first state, the card holder 13 can be fixed just inside the card slot 12, and when the ejection mechanism 22 is in the second state, the front end of the card holder 13 protrudes out of the housing of the electronic device 1, so that a user can take out the card holder 13 conveniently.

When the ejection mechanism 22 is in the first state, a gap is formed between the ejection mechanism 22 and the push-out mechanism 11; as shown in fig. 1, 5, 6, and 7, the card holder 13 is positioned in the card slot 12, and at this time, the ejector mechanism 22 is in the first state, and the ejector mechanism 22 does not contact the ejector mechanism 11, and the card holder 13 can be fixed in the card slot 12.

When the ejection mechanism 22 is in the second state, the ejection mechanism 22 extrudes the ejection mechanism 11 to drive the ejection mechanism 11 to eject the card holder 13 out of the card slot 12. As shown in fig. 2, 8, 9, and 10, when the ejector mechanism 22 shifts from the first state to the second state, the ejector mechanism 22 comes into contact with the push-out mechanism 11, the ejector mechanism 22 gradually pushes the push-out mechanism 11, and the push-out mechanism 11 can push the card holder 13 out of the card slot 12.

Pressing the ejector mechanism 22 can cause the ejector mechanism 22 to switch from the first state to the second state. When a user needs to take the card holder 13 out of the card slot 12, the plug 21 of the data line 2 is inserted into the socket 14, and the ejection mechanism 22 is pressed, so that the card holder 13 can be ejected out of the card slot 12. Because data line 2 is as the charging wire of electronic equipment 1, the great searching of being convenient for of volume, and the user often need use difficult losing, when the user need get the card, trade the card or when dress card, only need insert in socket 14 with the plug 21 of data line 2 to press ejection mechanism 22 and can hold in the palm 13 with the card and take out, when having simplified the operation, data line 2 also is difficult to lose, and the user of being convenient for uses.

Optionally, the ejection mechanism 22 includes a push rod 221 and an ejector pin 222, and the push rod 221 extends along an inner side wall of the plug 21; when the ejection mechanism 22 is in the first state, a gap is formed between the end of the push rod 221 and the thimble 222; when the ejection mechanism 22 is in the second state, the end of the push rod 221 presses the thimble 222 to drive the thimble 222 to penetrate through the sidewall of the plug 21 and press the ejection mechanism 11. When the user pushes the push rod 221, the push rod 221 can push the push pin 222 to make the push pin 222 penetrate out of the sidewall of the plug 21, and at this time, the push pin 222 gradually contacts with the push-out mechanism 11. Along with the gradual increase of the pushing force applied to the push rod 221, the length of the ejector pin 222 penetrating through the side wall of the plug 21 is gradually increased, the ejector pin 222 extrudes and pushes the pushing mechanism 11 to move, the pushing mechanism 11 drives the card holder 13 to move in the card slot 12, and finally the end portion of the card holder 13 extends out of the card slot 12, so that a user can conveniently pull the card holder 13 out of the card slot 12.

Optionally, the pushing mechanism 11 further includes a first connecting rod 111, a second connecting rod 112, a third connecting rod 113, a fixing block 114 and a pushing block 115, the pushing block 115 is disposed at an end of the first connecting rod 111, one end of the first connecting rod 111, which is far away from the pushing block 115, is sequentially and rotatably connected to the second connecting rod 112 and the third connecting rod 113, a first sliding slot 1111 is formed in the first connecting rod 111, and the fixing block 114 is fixed inside the electronic device 1 and is located in the first sliding slot 1111; a first inclined plane 131 is arranged at the end part of the card holder 13; when the ejection mechanism 22 is in the first state, the fixed block 114 is located at an end of the first sliding slot 1111 away from the push block 115, and a gap is formed between the push block 115 and the first inclined surface 131; when the ejecting mechanism 22 is in the second state, the fixed block 114 is located at one end of the first sliding slot 1111 close to the pushing block 115, the pushing block 115 extrudes the first inclined surface 131, and the ejecting mechanism 11 ejects the card holder 13 out of the card slot 12. After the pushing block 115 contacts the first inclined surface 131, as the pushing block 115 continues to move, the pushing block 115 pushes the first inclined surface 131 to push the card holder 13 out of the card slot 12. Specifically, as shown in fig. 1, 5, 6, and 7, at this time, the ejector 22 is in the first state, a certain gap is still formed between the push block 115 and the first inclined surface 131, as the ejector 22 is gradually switched from the first state to the second state, the push block 115 moves to a side close to the plug 21, and at this time, the distance between the push block 115 and the first inclined surface 131 gradually decreases until the push block 115 contacts the first inclined surface 131. At this time, the pushing force is continuously applied to the pushing rod 221, the pushing block 115 continuously applies the pushing force to the first inclined surface 131, and finally, the pushing block 115 pushes one end of the card holder 13 away from the pushing block 115 out of the card slot 12, so that the user can take out the card holder 13 conveniently.

Specifically, when the user pushes the push rod 221, the thimble 222 contacts the third link 113, the pushing force of the thimble 222 is sequentially transmitted to the first link 111, the first sliding slot 1111 slides, and the first link 111 drives the push block 115 to move toward the second link 112, so as to achieve the effect of contacting the push block 115 with the first inclined surface 131. The ejector rod is pushed continuously, so that the acting force of the push block 115 on the first inclined surface 131 is increased, and the effect of pushing the card holder 13 out of the card slot 12 is achieved.

Optionally, the extending direction of the thimble 222 is parallel to the sliding direction of the first link 111. The extending direction of the thimble 222 is parallel to the sliding direction of the first link 111, so that the pushing force required by the user to push the push rod 221 when the user takes out the card holder 13 can be reduced, and the use experience of the user can be improved.

Optionally, a first rotating shaft 116 is disposed at an end of the first connecting rod 111 away from the pushing block 115, a second sliding slot 1121 is disposed at an end of the second connecting rod 112, the first rotating shaft 116 is slidably disposed in the second sliding slot 1121, a second rotating shaft 117 is fixed in the electronic device 1, an end of the second connecting rod 112 away from the second sliding slot 1121 is connected to an end of the third connecting rod 113 through the second rotating shaft 117, and when the ejection mechanism 22 is in the second state, the thimble 222 extrudes an end of the third connecting rod 113 away from the second rotating shaft 117. Through the arrangement of the first rotating shaft 116 and the second rotating shaft 117, the first connecting rod 111, the second connecting rod 112 and the third connecting rod 113 can rotate relatively, the first rotating shaft 116 is matched with the second sliding chute 1121, when the thimble 222 applies a force to the third connecting rod 113 in the direction of the card holder 13, the first rotating shaft 116 slides in the first sliding chute 1111, the distance between the first rotating shaft 116 and the third connecting rod 113 is reduced, at the moment, the second connecting rod 112 generates a pulling force to the first connecting rod 111, and the pulling force direction is opposite to the pushing direction of the third connecting rod 113 by the thimble 222.

Optionally, the second link 112 and the third link 113 are disposed in the electronic device 1 in an inclined manner. In order to ensure that the first link 111 can displace by a sufficient length when the push rod 221 is pushed, the second link 112 and the third link 113 are both inclined to ensure that the push block 115 can move to push the card holder 13 out of the card slot 12 with a small pushing force when the push rod 221 is pushed. Meanwhile, the length of the push rod 221 exposed outside the plug 21 can be reduced, so that the push rod 221 only needs to displace for a short distance, and the push block 115 can displace for a sufficient length.

Optionally, the length of the third link 113 is smaller than the length of the second link 112. The length of the third link 113 is smaller than that of the second link 112, so that the third link 113 can be ensured to receive a smaller pushing force, and the pushing block 115 can still have a larger displacement stroke under the condition that the displacement distance of the ejector pin 222 is shorter, so that the pushing block 115 can generate a sufficient contact area with the first inclined surface 131 to push the card holder 13 out of the card slot 12.

Optionally, the push block 115 is spherical. The shape of the push block 115 is preferably spherical, and the spherical push block 115 can push the first inclined surface 131 more smoothly, but the push block 115 in the present application is not limited to spherical, and any push block 115 can generate sufficient pushing force on the first inclined surface 131.

Optionally, the top surface of the pushing block 115 and the top surface of the first link 111 are the same plane, and the pushing block 115 protrudes from the bottom surface of the first link 111 towards the side of the card holder 13. The push block 115 protrudes from the bottom surface of the first link 111, and when the first link 111 slides towards the second link 112, the push block 115 can generate sufficient thrust to the card holder 13, so as to increase the contact time between the push rod 221 and the first inclined surface 131, and ensure that the card holder 13 can smoothly extend out of the card slot 12.

Optionally, the data line 2 further includes an outer shell 23, when the plug 21 is inserted into the socket 14, the outer shell 23 abuts against the outer shell 23 of the electronic device 1, the thimble 222 is disposed in the plug 21, the push rod 221 extends to the thimble 222 along the outer shell 23, and a first elastic member 24 and a second elastic member 25 are respectively disposed in the outer shell 23 and the plug 21 corresponding to the push rod 221 and the thimble 222; when the ejection mechanism 22 is in the second state, the first elastic member 24 is in an elongated state, and the second elastic member 25 is in a compressed state. The push rod 221 extends from the housing 23, so that the user can push the push rod 221, and after the user takes out the card holder 13, the thimble 222 retracts into the plug 21 by the elastic restoring force of the first elastic member 24 and the second elastic member 25, so that the part of the push rod 221 pushed into the housing 23 extends, and the user can use the card holder for the next time.

Optionally, a second inclined surface 2221 is disposed on the periphery of the thimble 222; when the ejection mechanism 22 is in the first state, a gap is formed between the push rod 221 and the thimble 222; when the ejection mechanism 22 is in the second state, the push rod 221 presses the thimble 222 along the second inclined surface 2221. In the process that the user pushes the push rod 221 to switch the ejection mechanism 22 from the first state to the second state, the push rod 221 gradually contacts the second inclined surface 2221, and the push rod 221 is continuously pushed by the user, so that the thimble 222 is gradually transmitted out of the plug 21 until the plug 21 pushes the third link 113.

In a second aspect, the present embodiment provides a data cable 2 as shown in fig. 4 to 10, where the data cable 2 includes a housing 23, a plug 21, and an ejection mechanism 22; the plug 21 partially protrudes from the shell 23, and the plug 21 can be inserted into the matched socket 14; the ejection mechanism 22 includes a push rod 221 and an ejector pin 222, the push rod 221 is movably disposed in the housing 23, the push rod 221 extends from the housing 23 into the plug 21, one end of the push rod 221 protrudes out of one end of the housing 23 away from the plug 21, the ejector pin 222 is disposed in the plug 21, a second inclined surface 2221 is disposed on the ejector pin 222, pressing the push rod 221 can make the end of the push rod 221 press the second inclined surface 2221, and the ejector pin 222 protrudes out of the plug 21; a first elastic piece 24 and a second elastic piece 25 are respectively arranged in the shell 23 and the plug 21 corresponding to the push rod 221 and the thimble 222, when the push rod 221 is pressed, the first elastic piece 24 is in an elongated state, and the second elastic piece 25 is in a compressed state; the ejection mechanism 22 can be switched between a first state and a second state, and when the ejection mechanism 22 is in the first state, a gap is formed between the push rod 221 and the thimble 222; when the ejection mechanism 22 is in the second state, the push rod 221 presses the thimble 222, and the thimble 222 penetrates through the sidewall of the plug 21. The data cable in this embodiment has the ejection mechanism 22, and the user can move the push rod 221 toward the thimble 222 side in the housing 23 by pushing the exposed portion of the push rod 221, thereby stretching the first elastic member 24. When the push rod 221 abuts against the second inclined surface 2221, the end of the push rod 221 and the inclined surface slide relative to each other by continuously pushing the push rod 221, so that the thimble 222 penetrates through the sidewall of the plug 21, and the second elastic element 25 is compressed. When the user cancels the pushing force on the pushing rod 221, the first elastic element 24 drives the pushing rod 221 to move in a direction away from the thimble 222, the pressing force of the pushing rod 221 on the second inclined surface 2221 disappears, and the second elastic element 25 drives the thimble 222 to retract into the plug 21. The data line 2 of this embodiment is portable, and is difficult for losing, simultaneously through promoting push rod 221, can open the card support 13 of part electronic equipment 1, and is very convenient.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An electronic device assembly, comprising:

the electronic equipment is provided with a clamping groove, a card holder is detachably arranged in the clamping groove, a push-out mechanism is arranged in the electronic equipment and is arranged at one end, deep into the clamping groove, of the card holder, and a socket is formed in the electronic equipment and is close to the card holder;

the plug of the data line can be inserted into the socket, and the plug is provided with an ejection mechanism;

the ejection mechanism can be switched between a first state and a second state;

when the ejection mechanism is in the first state, a gap is formed between the ejection mechanism and the push-out mechanism;

when the ejection mechanism is in the second state, the ejection mechanism extrudes the ejection mechanism to drive the ejection mechanism to eject the card support out of the card slot.

2. The electronic device assembly of claim 1, wherein the ejection mechanism comprises a push rod and a thimble, the push rod extending along an inner sidewall of the plug;

when the ejection mechanism is in the first state, a gap is formed between the end part of the push rod and the ejector pin;

when the ejection mechanism is in the second state, the end part of the push rod extrudes the ejector pin so as to drive the ejector pin to penetrate out of the side wall of the plug and extrude the ejection mechanism.

3. The electronic device assembly according to claim 2, wherein the pushing mechanism further comprises a first connecting rod, a second connecting rod, a third connecting rod, a fixing block and a pushing block, the pushing block is arranged at an end of the first connecting rod, one end of the first connecting rod, which is far away from the pushing block, is sequentially and rotatably connected with the second connecting rod and the third connecting rod, a first sliding groove is formed in the first connecting rod, and the fixing block is fixed in the electronic device and located in the first sliding groove;

a first inclined plane is arranged at the end part of the card holder;

when the ejection mechanism is in the first state, the fixed block is positioned at one end, far away from the push block, in the first sliding groove, and a gap is formed between the push block and the first inclined surface;

when the ejection mechanism is in the second state, the fixed block is positioned at one end, close to the push block, in the first sliding groove, the push block extrudes the first inclined plane, and the card support is ejected out of the clamping groove by the ejection mechanism.

4. The electronic device assembly according to claim 3, wherein a first rotating shaft is disposed at an end of the first connecting rod away from the pushing block, a second sliding groove is disposed at an end of the second connecting rod, the first rotating shaft is slidably disposed in the second sliding groove, a second rotating shaft is fixed in the electronic device, an end of the second connecting rod away from the second sliding groove is connected with an end of the third connecting rod through the second rotating shaft, and when the ejecting mechanism is in the second state, the ejector pin extrudes an end of the third connecting rod away from the second rotating shaft.

5. An electronic device assembly according to claim 3, wherein the second link and the third link are disposed in the electronic device at an angle, and the length of the third link is less than that of the second link.

6. The electronic device assembly of claim 3, wherein the push block is spherical, a top surface of the push block is coplanar with a top surface of the first link, and a side of the push block facing the card holder protrudes from a bottom surface of the first link.

7. The electronic device assembly of claim 2, wherein the data line further comprises a housing, when the plug is inserted into the socket, the housing abuts against the housing of the electronic device, the thimble is disposed in the plug, the push rod extends to the thimble along the housing, and a first elastic member and a second elastic member are disposed in the housing and the plug corresponding to the push rod and the thimble, respectively;

when the ejection mechanism is in the second state, the first elastic piece is in an elongated state, and the second elastic piece is in a compressed state.

8. An electronic device assembly according to claim 2, wherein the thimble is provided with a second inclined surface on the peripheral side;

when the ejection mechanism is in the first state, a gap is formed between the push rod and the ejector pin;

when the ejection mechanism is in the second state, the push rod extrudes the thimble along the second inclined plane.

9. The electronic device assembly of claim 3, wherein the protrusion direction of the thimble is parallel to the sliding direction of the first link.

10. A data line is characterized by comprising a shell, a plug and an ejection mechanism;

the plug part protrudes out of the shell, and the plug can be inserted into a matched socket;

the ejection mechanism comprises a push rod and a thimble, the push rod is movably arranged in the shell, the push rod extends into the plug from the shell, one end of the push rod protrudes out of one end of the shell far away from the plug, the thimble is arranged in the plug, a second inclined plane is arranged on the thimble, the end part of the push rod can extrude the second inclined plane by pressing the push rod, and the thimble extends out of the plug;

a first elastic piece and a second elastic piece are respectively arranged in the shell and the plug corresponding to the push rod and the thimble, the push rod is pressed, the first elastic piece is in an elongated state, and the second elastic piece is in a compressed state;

the ejection mechanism is switchable between a first state and a second state,

when the ejection mechanism is in the first state, a gap is formed between the push rod and the ejector pin;

when the ejection mechanism is in the second state, the push rod extrudes the ejector pin, and the ejector pin penetrates out of the side wall of the plug.

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