CN110177443B - Multifunctional signal receiving and converting device - Google Patents

Abstract

The invention belongs to the technical field of signal conversion equipment, and particularly relates to a multifunctional signal receiving and converting device which comprises a shell mechanism, a converter host and an inner frame body, wherein the shell mechanism comprises a main shell, a mounting through cavity is formed in the main shell in a penetrating manner along the length direction of the main shell, the inner frame body is arranged in the mounting through cavity, the converter host is arranged in the inner frame body, and a placing plane for placing electronic equipment is formed on the top surface of the main shell. Because the top surface of the main shell is provided with the placing plane, electronic equipment matched with the converter host, such as a notebook computer and the like, can be placed on the placing plane, and the multifunctional signal receiving and converting device is skillfully combined with other equipment. Therefore, the multifunctional signal receiving and converting device has the basic function of signal conversion and the function of accommodating other electronic equipment, improves the comprehensive utilization rate of the assembly space and obviously improves the versatility.

Description

Multifunctional signal receiving and converting device

Technical Field

The invention belongs to the technical field of signal conversion equipment, and particularly relates to a multifunctional signal receiving and converting device.

Background

The signal converter can receive analog signals input by various electronic devices, convert the analog signals into digital signals, output the digital signals, and generally receive output signals generated by one terminal, convert the output signals and input the converted output signals to another terminal. For example, output signals generated by the notebook computer are converted and output to an external display, or signal receiving and conversion are performed between an external magnetic disk and mobile terminals such as the notebook computer, a mobile phone panel and the like, so as to perform data transmission and the like.

In the prior art, the signal converter is independent of other devices, and is required to provide an assembly space for the signal converter alone, so that the combination performance of the signal converter with other devices is poor, and the existing signal converter only has a signal receiving and converting function and has a single function.

Disclosure of Invention

The invention aims to provide a multifunctional signal receiving and converting device, which aims to solve the technical problems of poor combination performance and single function of a signal converter and other devices in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a multi-functional signal receiving conversion equipment, includes casing mechanism, converter host computer and interior support body, casing mechanism includes the main casing body, the main casing body link up along its length direction and has seted up the installation and lead to the chamber, interior support body set up in the installation leads to the intracavity, the converter host computer set up in the interior support body, the top surface of main casing body is formed with the plane of placing that is used for placing electronic equipment.

Further, the main shell comprises a bottom plate and a surface shell, the surface shell is fixed on the bottom plate and forms the installation through cavity with the bottom plate in a surrounding mode, and the placement plane is formed on the top surface of the surface shell.

Further, the face shell comprises a main board body, the opposite side edges of the main board body along the width direction of the main board body are respectively bent to form a first board section and a second board section, the first board section and the second board section are respectively connected with the opposite side edges of the bottom board, and the placement plane is formed on the top surface of the main board body.

Further, the multifunctional signal receiving and converting device further comprises a rotating support for supporting the mobile terminal equipment, the top surface of the inner support body is provided with an installation cavity, the rotating support is rotatably arranged in the installation cavity and can be turned to a preset supporting angle, the main board body is provided with a clearance gap, and the clearance gap is right opposite to the installation cavity and is used for the rotating support to turn through.

Further, the rotation strut includes mounting box and backup pad, the both ends of mounting box along its length direction all are provided with the axis of rotation, two the axis of rotation respectively rotate connect in the relative both sides inner wall in installation cavity, the backup pad connect in the top surface of mounting box.

Further, the bottom of the mounting cavity is provided with a plurality of buffer cushion blocks which are used for being abutted with the supporting plate.

Further, the installation box comprises a box body and a box cover, the two rotating shafts are respectively arranged at two ends of the box body along the length direction of the box body, the box cover is arranged on the box body, and the supporting plate is connected with one side edge of the box cover along the width direction of the box cover.

Further, the rotating bracket further comprises two connecting pieces, wherein the two connecting pieces are positioned in the box body and are respectively arranged at two opposite sides of the box cover along the length direction of the box body, and the two rotating shafts are respectively connected with the two connecting pieces.

Further, the installation box further comprises an anti-slip pad, and the anti-slip pad is arranged on the top surface of the box cover.

Further, the shell mechanism further comprises two side cover bodies, the installation through cavity is provided with two through holes which are oppositely arranged, and the two side cover bodies are respectively covered on the two through holes.

The invention has the beneficial effects that: according to the multifunctional signal receiving and converting device, the inner frame body is arranged and is arranged in the mounting through cavity formed in the main shell of the shell mechanism, and the converter host is arranged on the inner frame body, so that the converter host can be subjected to double protection of the inner frame body and the main shell to ensure the working stability of the converter host. The top surface of the main shell is provided with a placing plane, so that electronic equipment matched with the converter host, such as a notebook computer and the like, can be placed on the placing plane, the smart combination of the multifunctional signal receiving and converting device and other equipment is realized, and the shell assembly space is utilized, so that the notebook computer can be directly placed on the shell. Therefore, the multifunctional signal receiving and converting device has the basic function of signal conversion and the function of accommodating other electronic equipment, improves the comprehensive utilization rate of the assembly space and obviously improves the versatility.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a multifunctional signal receiving and converting device according to an embodiment of the present invention;

fig. 2 is another schematic structural diagram of a multifunctional signal receiving and converting device according to an embodiment of the present invention;

fig. 3 is a schematic view of another angle structure of the multifunctional signal receiving and converting device according to the embodiment of the present invention;

Fig. 4 is an exploded schematic view of a multifunctional signal receiving and converting device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a rotating bracket of the multifunctional signal receiving and converting device according to an embodiment of the present invention;

fig. 6 is an exploded view of a rotating bracket of a multifunctional signal receiving and converting device according to an embodiment of the present invention.

Wherein, each reference sign in the figure:

10-housing mechanism 11-main housing 12-side cover

13-Foot pad 14-antislip strip 20-converter main machine

21-PCB 22-expansion interface 23-conductive cloth

24-Plug 30-inner frame 31-installation cavity

32-Cushion block 33-elastic supporting piece 40-rotary support

41-Mounting box 42-supporting plate 43-rotating shaft

44-Connecting piece 45-anti-slip pad 111-installation through cavity

112-Bottom plate 113-surface shell 114-main board body

115-First plate section 116-second plate section 117-clearance gap

411-Box 412-box cover 413-assembly opening

414-A limiting part 451-a limiting edge.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to fig. 1 to 6 are exemplary and intended to illustrate the present invention and should not be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

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

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1, 2 and 4, the embodiment of the present invention provides a multifunctional signal receiving and converting device, which includes a housing mechanism 10, a converter main unit 20 and an inner frame 30. The housing mechanism 10 includes a main housing 11, a mounting through cavity 111 is provided through the main housing 11 along a length direction thereof, the inner frame 30 is disposed in the mounting through cavity 111, and the converter main unit 20 is disposed in the inner frame 30. Specifically, a plurality of first through holes are formed on one side of the inner frame 30 corresponding to each expansion interface 22 of the converter host 20, a plurality of second through holes are formed through the inner wall of the mounting through cavity 111, each second through hole is disposed in one-to-one correspondence with each first through hole, and each expansion interface 22 of the converter host 20 sequentially passes through the corresponding first through hole and is exposed out of the corresponding second through hole.

More specifically, the converter host 20 may specifically include a PCB 21 and a control chip mounted on the PCB 21, and associated expansion interfaces 22 (such as a PD interface, a plurality of USB 3.0 and USB 2.0 interfaces, a video interface, an RJ45 interface, a TF expansion card interface, an SD expansion card interface, and an AUDIO interface, etc.) to implement AUDIO/video output, data conversion, and other expansion functions. The main housing 11 of the housing mechanism 10 may be 6063 aluminum alloy member to ensure heat dissipation performance and aesthetic appearance of the main housing 11. The PCB 21 is attached with a conductive cloth 23, and the conductive cloth 23 is connected with the main housing 11 to ground the PCB 21.

Further, a plug 24 for realizing data transmission with other electronic devices is plugged into the converter host 20, and the plug 24 may be a TYPE-C/M plug. Meanwhile, the inner frame body 30 is connected with the main shell 11 through a fixing piece, a space is formed between the inner frame body 30 and the main shell 11, a placement plane for placing electronic equipment is formed on the top surface of the main shell 11, so that some electronic equipment matched with the converter host 20, such as a notebook computer, can be placed on the placement plane, effective utilization of the assembly space of the main shell 11 is realized, and because the space is formed between the inner frame body 30 and the main shell 11, heat emitted by the notebook computer can not be conducted to the converter host 20, and heat dissipation efficiency of the converter host 20 can be considered while the notebook computer is borne.

The following further describes a multifunctional signal receiving and converting device provided by the embodiment of the invention: according to the multifunctional signal receiving and converting device provided by the embodiment of the invention, the inner frame body 30 is arranged in the mounting through cavity 111 formed in the main shell 11 of the shell mechanism 10, and the converter host 20 is arranged on the inner frame body 30, so that the converter host 20 can be doubly protected by the inner frame body 30 and the main shell 11, and the working stability of the converter host is ensured. The top surface of the main housing 11 is formed with a placement plane, so that electronic devices, such as a notebook computer, which are matched with the converter host 20 for use can be placed on the placement plane, thereby realizing the smart combination of the multifunctional signal receiving and converting device and other devices, and utilizing the housing assembly space of the multifunctional signal receiving and converting device, so that the notebook computer can be directly placed on the housing of the multifunctional signal receiving and converting device. Therefore, the multifunctional signal receiving and converting device has the basic function of signal conversion and the function of accommodating other electronic equipment, improves the comprehensive utilization rate of the assembly space and obviously improves the versatility.

In another embodiment of the present invention, as shown in fig. 3 and 4, the main housing 11 includes a bottom plate 112 and a face housing 113, the face housing 113 is fixed on the bottom plate 112, and the face housing 113 and the bottom plate 112 are surrounded by a mounting through cavity 111, and a placement plane is formed on the top surface of the face housing 113. Specifically, the surface shells 113 are gradually arranged from high to low along the width direction of the surface shells, so that the placement plane formed by the top surfaces of the surface shells is an inclined plane, and the notebook computer can be placed on the placement plane in a better posture. Furthermore, the anti-slip strip 14 can be arranged on one side of the placement plane along the width direction, so that the notebook computer can be prevented from sliding off the placement plane under the limit of the anti-slip strip 14.

In another embodiment of the present invention, as shown in fig. 4, the panel 113 includes a main board 114, a first board segment 115 and a second board segment 116, the first board segment 115 and the second board segment 116 are respectively bent to form two opposite side edges of the main board 114 along the width direction thereof, and the first board segment 115 and the second board segment 116 are respectively connected to two opposite side edges of the bottom board 112, and a placement plane is formed on the top surface of the main board 114. Specifically, the first plate segment 115 and the second plate segment 116 are formed by bending opposite sides of the main plate body 114, so that the first plate segment 115 and the second plate segment 116 can support the main plate body 114 to be spaced apart from the bottom plate 112, thereby forming the installation through cavity 111, and facilitating the installation of the inner frame body 30 between the main plate body 114 and the bottom plate 112.

Further, the height of the second plate segment 116 is less than the height of the first plate segment 115 to enable tilting of the main plate body 114 relative to the base plate 112. And the inner sides of the bottom plate 112 and the second plate segment 116 are connected, and the second plate segment 116 extends towards the direction away from the first plate segment 115 to form a waffle layout, so that the effect of shielding the bottom plate 112 can be visually achieved, and the overall aesthetic degree of the main shell 11 can be improved.

In another embodiment of the present invention, as shown in fig. 4 to 6, the multifunctional signal receiving and converting device further includes a rotating bracket 40 for supporting the mobile terminal device, the top surface of the inner bracket 30 is provided with a mounting cavity 31, the rotating bracket 40 is rotatably disposed in the mounting cavity 31 and can be turned to a predetermined supporting angle, the main board 114 is provided with a avoidance gap 117, and the avoidance gap 117 is disposed opposite to the mounting cavity 31 for the rotating bracket 40 to turn through. Specifically, through setting up rotation strut 40 to make rotation strut 40 rotate and set up in the installation cavity 31 of interior support body 30, like this when multi-functional signal receiving conversion equipment needs to cooperate with mobile terminal, like cell-phone or panel computer, can overturn rotation strut 40 and stand on mainboard body 114 through the gap 117 that keeps away on the mainboard body 114, in order to realize effectively supporting mobile terminal, just so make multi-functional signal receiving conversion equipment can be when carrying out data transmission with mobile terminal, for it provides effectual support, make mobile terminal's display screen can just face the operator, and then can also realize information interaction with the operator when mobile terminal carries out data transmission, so further promoted multi-functional signal receiving conversion equipment's multifunctionality.

Further, the rotating bracket 40 may be turned to a predetermined supporting angle with respect to the main plate body 114, and the predetermined supporting angle may be 110 °, 111 °, 112 °, 113 °, 114 °, 115 °, 116 °, 117 °, 118 °, 119 °, 120 °, 121 °, 122 °, 123 °, 124 °, 125 °, 126 °, 127 °, 128 °, 129 °, or 130 °. Preferably, the predetermined support angle may be 125 °. This ensures that the display of the mobile terminal placed on the rotating bracket 40 presents an optimal visual angle with respect to the operator. Furthermore, the rotating bracket 40 can realize damping rotation relative to the inner side wall of the mounting cavity 31, so that the rotating bracket 40 can be ensured to be stable and not swing randomly when being accommodated in the mounting cavity 31.

In another embodiment of the present invention, as shown in fig. 4 to 6, the rotating bracket 40 includes a mounting box 41 and a supporting plate 42, both ends of the mounting box 41 in the length direction thereof are provided with rotating shafts 43, the two rotating shafts 43 are rotatably connected to inner walls of opposite sides of the mounting cavity 31, respectively, and the supporting plate 42 is connected to the top surface of the mounting box 41. Specifically, by arranging the mounting box 41 and the support plate 42, when the mobile terminal is placed on the rotating support 40, the bottom of the mobile terminal can be abutted against the top surface of the mounting box 41, and the back of the mobile terminal can be abutted against the support plate 42, so that the mobile terminal can be stably arranged on the rotating support 40.

Further, by arranging the mounting box 41, some objects such as spare parts can be placed in the mounting box 41, so that the rotating support 40 can also accommodate other objects while supporting the mobile terminal, and the functionality of the rotating support 40 is further remarkably expanded. The mounting box 41 and the supporting plate 42 can be 6063 aluminum alloy parts so as to ensure the integral strength of the rotary bracket 40.

Furthermore, two opposite sides of the outer wall of the two rotating shafts 43 are planar, and two rectangular matching notches are formed on the inner walls of the two opposite sides of the mounting cavity 31, the two rotating shafts 43 are respectively inserted into the two matching notches, the mounting cavity 31 can be further provided with elastic abutting pieces 33, when the rotating support 40 is accommodated in the mounting cavity 31, the two elastic abutting pieces 33 are respectively abutted with the cambered surface parts of the two rotating shafts 43, thus locking of the rotating support 40 relative to the inner support 30 is realized, and when the rotating support 40 is turned relative to the inner support 30, the cambered surface parts of the rotating shafts 43 are separated from the abutting pieces 33 at the moment, so that smooth turning of the rotating support 40 can be realized. Preferably, the two elastic abutment plates 33 are chrome-plated iron plates, so that the two elastic abutment plates 33 are ensured not to be corroded.

In another embodiment of the present invention, as shown in fig. 4, the bottom of the installation cavity 31 is provided with a plurality of buffer pads 32 for abutting against the support plate 42. Specifically, through setting up cushion block 32 in the bottom of installation cavity 31, when rotating strut 40 upset like this and acceping to installation cavity 31 in, cushion block 32 can realize elasticity butt to backup pad 42, so can avoid backup pad 42 to bump into the bottom of installation cavity 31.

In another embodiment of the present invention, as shown in fig. 5 and 6, the mounting box 41 includes a box body 411 and a box cover 412, the two rotating shafts 43 are respectively disposed at two ends of the box body 411 along the length direction thereof, the box cover 412 is disposed on the box body 411, and the supporting plate 42 is connected to one side edge of the box cover 412 along the width direction thereof. Specifically, the side wall of the box 411 may be integrally formed with the support plate 42, that is, the side wall of the box 411 may be extended to form the support plate 42, so that the manufacturing cost of the rotating bracket 40 may be reduced and the production efficiency may be improved due to the low cost of the integral forming process and the suitability for mass production.

In another embodiment of the present invention, as shown in fig. 6, the rotating bracket 40 further includes two connecting members 44, wherein the two connecting members 44 are located in the box 411 and respectively disposed at two opposite sides of the box cover 412 along the length direction thereof, and the two rotating shafts 43 are respectively connected to the two connecting members 44. Specifically, the box cover 412 is provided with assembly openings 413 at opposite sides along a length direction thereof, and the two rotation shafts 43 respectively pass through the two assembly openings 413 and are connected with the corresponding connection members 44. By providing two connection members 44 and connecting the two connection members 44 to the two rotation shafts 43, the two rotation shafts 43 achieve stable connection with respect to the case 411. The phenomenon that the connection stability is poor due to the fact that the two rotating shafts 43 are directly connected to the box 411 is avoided, and when the rotating shafts 43 need to be replaced, only the connecting piece 44 and the rotating shafts 43 need to be taken out of the box 411, and replacement together with the box 411 is not needed.

In another embodiment of the present invention, as shown in fig. 6, the mounting box 41 further includes a non-slip pad 45, and the non-slip pad 45 is disposed on the top surface of the box cover 412. Specifically, by providing the anti-slip pad 45 on the top surface of the box cover 412, the bottom of the mobile terminal can be restrained by the anti-slip pad 45 to avoid sliding relative to the top surface of the box cover 412, so that the placement stability of the mobile terminal relative to the rotating bracket 40 is further ensured.

Further, the two ends of the box cover 412 along the length direction are both formed with limiting parts 414 in a protruding manner, and the two limiting parts 414 are respectively abutted with the two ends of the anti-slip pad 45 along the length direction. Thus, the displacement of the anti-slip pad 45 relative to the top of the box cover 412 can be limited, so that the anti-slip pad 45 is more stably arranged on the top of the box cover 412.

Further, a side edge of the anti-slip pad 45 facing away from the support plate 42 is formed with a limit edge 415. When the mobile terminal device is not stably placed on the anti-slip pad 45 and slides relative to the anti-slip pad 45, the existence of the limit edge 415 can ensure that the lower end edge of the mobile terminal device cannot slide out of the anti-slip pad 45, so that the probability of the mobile terminal device separating from the anti-slip pad 45 is remarkably reduced.

In another embodiment of the present invention, as shown in fig. 2 to 4, the housing mechanism 10 further includes two side cover bodies 12, the installation through cavity 111 has two opposite through openings, and the two side cover bodies 12 are respectively covered on the two through openings. Specifically, through making the installation through-cavity 111 have two through-openings that set up relatively, then interior support body 30 is installing in the installation through-cavity 111, and then the operating personnel can be through-opening with the mounting in interior support body 30 and installation through-cavity 111, and then can conveniently and rapidly realize the installation of interior support body 30 in the installation through-cavity 111, and through setting up two side lid bodies 12, and make two side lid bodies 12 lid locate two through-openings, just so realized the whole sealed setting of installation through-cavity 111, guaranteed that external impurity can not enter into the installation through-cavity 111 through two through-openings.

In another embodiment of the present invention, as shown in fig. 4, a plurality of foot pads 13 are disposed at the bottom of the bottom plate 112 to ensure that the main housing 11 does not slide relative to the external base surface, so as to ensure the placement stability of the multifunctional signal receiving and converting device relative to the external base surface. Preferably, the rubber pad, the cushion pad, the anti-slip pad 45 and the anti-slip strip 14 are all preferably made of silica gel.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. A multifunctional signal receiving and converting device, characterized in that: the electronic device comprises a shell mechanism, a converter host and an inner frame body, wherein the shell mechanism comprises a main shell, a mounting through cavity is formed in the main shell in a penetrating manner along the length direction of the main shell, the inner frame body is arranged in the mounting through cavity, the converter host is arranged in the inner frame body, and a placing plane for placing electronic devices is formed on the top surface of the main shell;

the main shell comprises a bottom plate and a surface shell, the surface shell is fixed on the bottom plate and is surrounded with the bottom plate to form the mounting through cavity, and the placement plane is formed on the top surface of the surface shell;

The panel shell comprises a main board body, wherein the main board body is respectively bent along the two opposite side edges of the width direction of the main board body to form a first board section and a second board section, the first board section and the second board section are respectively connected with the two opposite side edges of the bottom board, and the placement plane is formed on the top surface of the main board body;

the multifunctional signal receiving and converting device further comprises a rotating support frame for supporting the mobile terminal equipment, the top surface of the inner support frame body is provided with an installation cavity, the rotating support frame is rotatably arranged in the installation cavity and can be turned to a preset supporting angle, the main board body is provided with a clearance gap, and the clearance gap is arranged relative to the installation cavity so as to enable the rotating support frame to pass through in a turning mode;

The rotary support comprises a mounting box and a supporting plate, wherein two ends of the mounting box along the length direction are respectively provided with a rotary shaft, the two rotary shafts are respectively connected to the inner walls of two opposite sides of the mounting cavity in a rotary mode, and the supporting plate is connected to the top surface of the mounting box;

Two opposite sides of the outer wall of the rotating shaft are planar, rectangular matching notches are formed in the inner walls of the two opposite sides of the mounting cavity, the rotating shaft is respectively inserted into the two matching notches, elastic abutting pieces are further installed in the mounting cavity, and when the rotating support is accommodated in the mounting cavity, the elastic abutting pieces are respectively abutted to the cambered surface portions of the rotating shaft.

2. The multi-function signal receiving and converting apparatus according to claim 1, wherein: the bottom of the mounting cavity is provided with a plurality of buffer cushion blocks which are used for being abutted with the supporting plate.

3. The multi-function signal receiving and converting apparatus according to claim 1, wherein: the installation box comprises a box body and a box cover, wherein two rotating shafts are respectively arranged at two ends of the box body along the length direction of the box body, the box cover is arranged on the box body in a covering mode, and the supporting plate is connected with one side edge of the box cover along the width direction of the box cover.

4. A multi-function signal receiving transducer apparatus according to claim 3, wherein: the rotating support frame further comprises two connecting pieces, wherein the two connecting pieces are located in the box body and are respectively arranged on two opposite sides of the box cover along the length direction of the box cover, and the two rotating shafts are respectively connected with the two connecting pieces.

5. A multi-function signal receiving transducer apparatus according to claim 3, wherein: the installation box further comprises an anti-slip pad, and the anti-slip pad is arranged on the top surface of the box cover.

6. The multi-function signal receiving and converting apparatus according to any one of claims 1 to 5, wherein: the shell mechanism further comprises two side cover bodies, the installation through cavity is provided with two through holes which are oppositely arranged, and the two side cover bodies are respectively covered on the two through holes.