CN115962210A - Mounting device - Google Patents

Abstract

The invention relates to a mounting device comprising: a housing having an insertion hole formed in one surface thereof; a slider disposed in the housing, the slider corresponding to the insertion hole; the sliding piece slides along the first direction, when viewed along the inserting direction of the inserting hole, the projection of the sliding piece in the inserting hole and the inserting hole have a superposition part, and the connecting piece on the equipment module is fixed or released through the matching of the sliding piece and the inserting hole, so that the equipment module can be flexibly, quickly, accurately, densely, highly repeatedly and safely disassembled and assembled.

Description

Mounting device

Technical Field

The invention relates to the technical field of mounting devices, in particular to a mounting device suitable for single module mounting.

Background

In the shooting process of television, movies, stage and content creation (youtube, tiktok, etc.), it is necessary to install a lamp/luminaire/reflector/diffuser/video wall element/camera/green screen/textile/scenery element, etc. equipment units. The existing equipment unit is formed by combining a plurality of equipment module arrays, and each equipment module is fixed with the support through a connecting piece. However, the distance between the equipment modules is large, and a single module is connected with the bracket only by the self connecting piece, so that when the structural strength of the equipment module or the connecting piece fails, a falling accident can be caused. And the installation distance between the existing equipment modules is difficult to standardize, and the equipment units cannot be reproduced accurately and repeatedly. Meanwhile, the movie shooting scenes are often shifted, resulting in the need for frequent disassembly and assembly of the equipment units. Meanwhile, in the same shooting scene, the configuration of the equipment unit may need to be replaced midway, for example, a single equipment module in the array is removed, rotated, replaced or realigned, the existing disassembling and assembling mode is not flexible enough, and the disassembling and assembling speed needs to be slow by means of tools. Therefore, there is a need for a mounting device that can be used with the connectors of the equipment module to achieve flexible, fast, accurate, dense, repeatable and safe equipment removal and installation.

Disclosure of Invention

The invention aims to provide a mounting device which is matched with a connecting piece on an equipment module to realize flexible, quick, accurate, dense and high-repeatability safe dismounting and mounting of equipment.

According to an aspect of the present invention, there is provided a mounting device including:

a housing having an insertion hole formed in one surface thereof;

a slider disposed in the housing, the slider corresponding to the insertion hole;

the sliding piece slides along a first direction, and when viewed along the insertion direction of the insertion hole, the projection of the sliding piece in the insertion hole is overlapped with the insertion hole.

More preferably, the mounting device further comprises:

the locking mechanism can slide along a second direction, and the second direction is perpendicular to the first direction;

when the locking mechanism is located at the locking position and the sliding piece is located at the first sliding position, the sliding piece is not slidable along the first direction;

when the locking mechanism slides to an unlocking position along the second direction, the sliding piece can slide along the first direction.

More preferably, the slider includes:

a first body portion formed with a first through hole penetrating the first body portion in the insertion direction and communicating with the insertion hole;

and the positioning part is formed on one surface of the first main body part, which is far away from the shell and is provided with an insertion hole.

More preferably, when the slider is located at the first sliding position, a second projection of the positioning portion in the insertion hole along the insertion direction has an overlapping portion with the insertion hole;

when the sliding piece slides to a second sliding position along the first direction, a fourth projection of the positioning part in the insertion hole along the insertion direction is completely overlapped with the insertion hole.

More preferably, the slider further comprises:

a blocking part formed on one surface of the first main body part, which is close to the shell and is provided with an insertion hole;

when the sliding piece is positioned at a first sliding position, a first projection of the blocking part in the insertion hole along the insertion direction is overlapped with the insertion hole,

when the sliding piece slides to a second sliding position along the first direction, a third projection of the blocking part in the insertion hole along the insertion direction is not coincident with the insertion hole.

More preferably, the blocking portion includes:

and the inclined surface is formed on one surface of the blocking part, which is close to the shell and is provided with the insertion hole.

More preferably, the first projection corresponds to the inclined surface of the blocking portion.

More preferably, the blocking portion includes:

and the plane is formed on one surface of the blocking part, which is far away from the shell and is provided with the insertion hole.

More preferably, the housing comprises; the insertion hole is formed in the lower shell, and the insertion hole penetrates through the lower shell.

More preferably, the locking mechanism comprises: retaining member, set up in on the retaining member and follow second direction slidable locking switch, set up in on the retaining member and with locking switch integrated into one piece's limiting plate and be formed in on the retaining member and with the locking arch that locking switch contacted.

Preferably, the mounting device further comprises a connector link extending out of the housing.

The invention has the following beneficial effects:

the connecting piece on the equipment module is fixed or released through the matching of the sliding piece and the inserting hole, so that the equipment module can be flexibly, quickly, accurately, densely and safely disassembled and installed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective view of a mounting device according to an embodiment of the present invention;

FIG. 2 is an exploded perspective view of a mounting device according to one embodiment of the present invention;

FIG. 3 is another exploded perspective view of a mounting device according to one embodiment of the present invention;

FIG. 4 is a top view of a mounting device according to an embodiment of the present invention;

FIG. 5 isbase:Sub>A schematic cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a schematic cross-sectional view taken along line B-B of FIG. 4;

FIG. 7 is a schematic view of the slider of FIG. 6 in a second sliding position;

FIG. 8 is a perspective view of the slider in a first sliding position as viewed in the insertion direction in accordance with one embodiment of the present invention;

FIG. 9 is a perspective view of the slider in a second sliding position as viewed in the insertion direction in accordance with one embodiment of the present invention;

FIG. 10 is a side view of a first equipment module according to one embodiment of the present invention attached to a rack by a mounting device;

FIG. 11 is a top view of a first equipment module according to one embodiment of the present invention attached to a rack by a mounting device;

FIG. 12 is a schematic view of an application scenario of the present invention;

the reference numbers illustrate: 100. a mounting device; 200. an equipment module; 300. a connecting member; 301. a limiting step; 400. a support; 500. a bracket connection mechanism; 10. a housing; 11. an upper housing; 12. a lower housing; 20. an insertion hole; 30. a slider; f1, a first direction; f20, inserting direction; 50. projecting; 21. a first insertion hole; 310. a first slider; 60. a locking mechanism; 31. a first main body part; 32. a first through hole; 33. a positioning part; 34. a blocking portion; 51. a first projection; 52. a second projection; 53. a third projection; 54. a fourth projection; 35. an abutting portion; 70. a rotating shaft; 37. a first return spring; 341. a plane; 342. a bevel; 61. a locking member; 62. a locking switch; 63. a limiting plate; 64. a locking protrusion; 80. a guide mechanism; 81. an upper guide seat; 82. a lower guide seat; 83. a guide plate; 38. a slide switch; 210. a first equipment module; 3010. a first connecting member; f2, a second direction; 84. a connecting buckle; 110. a first mounting device; 120. a second mounting device; 130. a third mounting device;

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 12, an embodiment of the present invention provides a mounting apparatus 100, where the mounting apparatus 100 includes: a housing 10, an insertion hole 20, a slider 30, a locking mechanism 60, a guide mechanism 80, and a bracket connection mechanism 500.

Specifically, the mounting device 100 is connected to the connector 300 of the equipment module 200 at one end and to the environmental support 400 at the other end.

Specifically, the connecting member 300 of the equipment module 200 may be any conventional connecting member 300 capable of connecting two objects and providing a strength requirement for practical structure, such as a safety rope, a screw, a bolt, a pin, a chain, or a non-standard member with a certain structural improvement on the basis of the conventional standard member. In this embodiment, the connector 300 is a bolt structure having one end connected to the equipment module 200 and the other end formed with a limit step 301, the connector 300 is formed by extending along the insertion direction F20 of the insertion hole 20, and the limit step 301 is formed by extending from the sidewall of the connector 300 along the first direction F1. In the present embodiment, the connecting member 300 is inserted into the insertion hole 20 along the insertion direction F20 of the insertion hole 20, the sliding member 30 of the mounting device 100 slides along the first direction F1 to cooperate with the limiting step 301 of the connecting member 300, when the sliding member 30 is located at the first sliding position, the limiting step 301 abuts against the sliding member 30 to limit the movement of the connecting member 300 along the insertion direction F20, and when the sliding member 30 is located at the second sliding position, the limiting step 301 separates from the sliding member 30 to release the movement of the connecting member 300 along the insertion direction F20.

In one embodiment, the connecting member 300 may also be a conventional standard member such as a safety rope, a screw, a bolt, a pin, a chain, etc. by providing a limit structure on the standard member to match the sliding action of the sliding member 30, the purpose of clamping or releasing the connecting member 300 is achieved. For example, when the connecting member 300 is a safety rope, a dead lock may be disposed at an end of the safety rope close to the sliding member 30, and the through hole surrounded by the dead lock is sleeved with or separated from the sliding member 30 to limit and release the safety rope. When the slider 30 slides to the first position, the dead lock is sealed in the closed space formed by the slider 30 and the insertion hole 20, and when the slider 30 slides to the second position, the open space formed by the slider 30 and the insertion hole 20, the through hole of the dead lock is separated from the slider 30 through the open space, thereby releasing the connecting member 300. And standard components such as screws, bolts, pins, chains and the like can also be matched with the sliding component 30 by arranging through holes similar to dead buckles on the standard components to realize the sleeving connection or separation of the sliding component 30 so as to realize the release and the limit of the connecting component 300.

It is understood that the safety rope, the screw, the bolt, the pin, the chain and other conventional standard components can also be engaged with or released from the sliding member 30 through other conventional limiting structures, for example, the standard component is provided with a conventional limiting pin, a conventional limiting hole, a conventional limiting shaft and the like to engage with the sliding member 30, and therefore, the details are not repeated herein.

In particular, the support 400 in the environment may be understood as a permanent fixing medium, such as the support 400 fixed on a wall, the support 400 fixed on a ceiling, or the support 400 fixed on a ground, or may be a temporarily built support 400. The support 400 may be a conventional frame structure, a pipe structure, a cantilever 45 structure, a wall-hanging structure, or a suspension structure, or may be a support frame body that can support the equipment unit by means of a hook on a crane or a special vehicle. In the present embodiment, the holder 400 is a holder 400 assembled from a tube structure. Accordingly, the mounting device 100 of the present embodiment is provided with a bracket connection mechanism 500 for engaging with the pipe structure. It will be appreciated that the bracket connection mechanism 500 of the mounting device 100 may be adapted to accommodate the bracket connection mechanism 500 of the bracket 400, depending on the bracket 400 used. In the present embodiment, since the bracket 400 has a pipe structure, the bracket connection mechanism 500 is a pipe clamp shown in fig. 1.

Specifically, an insertion hole 20 is formed at one surface of the housing 10, the bracket connection mechanism 500 is disposed at the other surface of the housing 10, the insertion hole 20 is used for being matched with the connection member 300, one end of the connection member 300 is connected with the equipment module 200, and the other end of the connection member 300 is inserted into the insertion hole 20 and is limited and locked by the sliding member 30. The bracket connection mechanism 500 is fixed to the bracket 400 in the environment, and in this embodiment, the bracket 400 may be simply understood as a pipe, so that the equipment module 200 is fixed to the bracket 400.

In one embodiment, to facilitate the removal and installation of the installation device 100 itself, the housing 10 comprises; the connector 300 includes an upper housing 11 and a lower housing 12, an insertion hole 20 is formed on the lower housing 12, the insertion hole 20 penetrates the lower housing 12, and a surface of the lower housing 12 facing away from the upper housing 11 is inserted into the insertion hole 20. Support coupling mechanism 500 sets up on last casing 11, and is fixed in the one side that last casing 11 deviates from lower casing 12 to, equipment module 200 is fixed in the one side that deviates from last casing 11 of casing 12 down through connecting piece 300, and support 400 is located the one side that last casing 11 deviates from lower casing 12, and installation device 100 is located between connecting piece 300 and support 400, plays the effect of connecting.

Specifically, the sliding members 30 are disposed in the housing 10, the number of the sliding members 30 may be any integer, in this embodiment, the number of the equipment modules 200 is 1, and the number of the sliding members 30 on the mounting device 100 is 1. Accordingly, the number of the insertion holes 20 may be any integer, and the number of the sliders 30 corresponds to the number of the insertion holes 20, so that the number of the insertion holes 20 is 1.

In the present embodiment, the slider 30 includes the first slider 310, and accordingly, the insertion hole 20 includes the first insertion hole 21; the connecting component 300 coupled to the mounting device 100 includes a first connecting component 3010, and the equipment module 200 coupled to the first connecting component 3010 is a first equipment module 210.

Specifically, the first insertion hole 21 corresponds to the first slider 310, and the first slider 310 corresponding to the first insertion hole 21 is provided to connect the first equipment module 210, so that the single equipment module 200 is aligned, assembled, and protected in a certain equipment unit, in the present embodiment, the single equipment module 200, that is, the first equipment module 210 is mounted on the bracket 400 by 4 mounting devices 100, and the four corners of the equipment module 200 are respectively provided with one connecting member 300, so that the equipment module 200 is mounted on the bracket 400. When the structural strength of the connecting piece 300 on one corner of the equipment module fails, the mounting devices 100 and the connecting pieces 300 on the other three corners still play a role in maintaining the integral structural integrity of the equipment unit, and the safety of equipment dismounting and mounting is improved.

Specifically, when the slider 30 is slid in the first direction F1, a projection 50 of the slider 30 within the insertion hole 20 and the insertion hole 20 have an overlapping portion as viewed in the insertion direction F20 of the insertion hole 20; therefore, through the matching of the sliding parts 30 and the insertion holes 20, the one-to-one corresponding control of each equipment module 200 by each sliding part 30 is realized, so that the first sliding part 310 controls the disassembly and assembly of the first equipment module 210, and the flexibility of the disassembly and assembly of the equipment is improved;

in an embodiment, in order to realize the sliding of the sliding member 30 along the first direction F1, the mounting device 100 further includes a guiding mechanism 80, the guiding mechanism 80 includes an upper guiding seat 81 and a lower guiding seat 82, the sliding member 30 is disposed between the upper guiding seat 81 and the lower guiding seat 82, and each of the upper guiding seat 81 and the lower guiding seat 82 is provided with a guiding plate 83 extending along the first direction F1, so as to guide the sliding member 30 to slide along the first direction F1.

Specifically, in order to further improve the safety of the installation of the equipment unit, the installation apparatus 100 further includes: a connecting buckle 84. The connecting buckle 84 extends out of the housing 10, the connecting buckle 84 is used for being matched with a safety rope, the mounting device 100 is connected with the bracket 400 or the equipment module 200 through the safety rope, when the connecting piece 300 fails, the purpose of double guarantee is achieved through the safety rope, and therefore the safety of the mounting device 100 is improved. In this embodiment, the connection buckle 84 is formed on the guide mechanism 80, and specifically, the connection buckle 84 is formed on the lower guide seat 82, and a lower housing 1210 extends outwards from one side of the lower guide seat 82, so that the safety rope is connected to the connection buckle 84. Specifically, the connection buckle 84 is an annular structure with a through hole formed at the center, and the annular structure may be a circular ring structure in the conventional sense, or may be another polygonal structure forming a closed ring. In the present embodiment, referring to fig. 8, the connection buckle 84 is a rectangular ring structure with a circular arc chamfer as viewed from the direction of the insertion hole 20, and the safety rope passes through the center of the ring structure and is bound with the connection buckle 84, thereby functioning to connect the connection member 300 with the equipment module 200 or the bracket 400, and further improving the safety of the installation device 100.

In an embodiment, in order to improve the safety of the installation apparatus 100, the sliding state of the slider 30 is configured to be a sliding locking state and a sliding releasing state, and the switching between the two states can be realized by adding a locking mechanism 60, in this embodiment, the installation apparatus 100 further includes: a locking mechanism 60. The locking mechanism 60 includes: a locking member 61, a locking switch 62, a limiting plate 63, and a locking protrusion 64.

Specifically, the locking mechanism 60 is slidable in the insertion direction; in the present embodiment, the slider 30 is provided with an abutting portion 35 that engages with the lock mechanism 60, and the abutting portion 35 is formed to extend from a surface of the first body portion 31 that is close to the upper case. The locking mechanism 60 includes a locking member 61 and a locking switch 62, a limiting plate 63 is formed on the locking member 61, when the rotation locking state is switched, the abutting portion 35 abuts against the limiting plate 63 to realize locking limiting, when the rotation releasing state is switched, the locking switch 62 is toggled along the second direction F2, the locking switch 62 slides along the second direction F2, so that the abutting portion 35 is separated from the limiting plate 63, the abutting portion 35 loses limitation, the sliding member 30 can slide along the first direction F1, wherein the second direction F2 is perpendicular to the first direction F1, and the second direction F2 is perpendicular to the insertion direction F20.

Specifically, in order to facilitate the locking switch 62 to maintain the locking position or the unlocking position, a locking protrusion 64 is further provided between the locking switch 62 and the lower housing 12. This locking arch 64 is the hemisphere arch, and when dialling locking switch 62, locking switch 62 extrudes locking arch 64 in second direction F2 from the initial position in order to slide to make butt portion 35 break away from limiting plate 63, when dialling locking switch 62 backward, locking switch 62 extrudes locking arch 64 and returns the initial position. When the lock switch 62 is not toggled, the lock switch is maintained in either the locked position or the unlocked position.

In one embodiment, to avoid inserting the connecting member 300 too far, the slider 30 comprises: a first body portion 31 and a positioning portion 33.

Specifically, the first body portion 31 is formed with a first through hole 32 penetrating the first body portion 31 in the insertion direction F20, and the first through hole 32 communicates with the insertion hole 20; so that the connecting member 300 can pass through the sliding member 30 after being inserted into the insertion hole 20, so that the limiting step 301 of the connecting member 300 is matched with the sliding member 30 to limit and release.

Specifically, the positioning portion 33 is formed on a surface of the first main body portion 31 close to the lower housing 12, and is engaged with the locking mechanism 60. After the connecting member 300 is inserted into the insertion hole 20, it passes through the sliding member 30 along the first through hole 32 and abuts against the positioning portion 33 on the sliding member, so as to prevent the connecting member 300 from being inserted too deeply.

In one embodiment, to facilitate pressing the slider 30 to slide in the first direction F1, the slider 30 further includes a slide switch 38 and a first return spring 37.

Specifically, the sliding open loop is disposed on a side of the first main body 31 away from the rotating shaft 70, the rotating shaft 70 is hinged to the bracket connection mechanism 500, and the sliding switch 38 is pressed to push the sliding member 30 to slide along the first direction F1, so as to move the sliding member 30 from the first sliding position to the second sliding position. When the slide switch 38 is released, the first return spring 37 urges the slider 30 to return to the first slide position.

The slider 30 can be slid from the first slide position to the second slide position by directly pressing the push slider 30. The slider 30 can be pushed to slide to the second sliding position along the first direction F1 by providing the ramp structure on the slider 30 and pressing the ramp through the connecting member 300, so that the slider 30 is pushed to slide to the second sliding position along the first direction F1, the connecting member 300 is pushed into the insertion hole 20, and the slider 30 is pushed to return to the first sliding position through a first return spring 37, so that the connecting member 300 is locked in the insertion hole 20. At this time, the slider 30 can be slid from the first sliding position to the second sliding position again by pressing and pushing the slider 30, so that the connecting member 300 is released, the locking of the connecting member 300 is released, the connecting member 300 can be pulled out of the insertion hole 20 along the insertion direction F20, and the mounting and dismounting can be realized without tools.

In one embodiment, in order to prevent the connection member 300 from exiting along the original path after being inserted into the insertion hole 20, the slider 30 further includes: a barrier.

Specifically, the blocking portion 34 is formed on a surface of the first body portion 31 adjacent to the lower case 12; one surface of the blocking portion 34 far from the lower housing 12 is a plane 341, one surface of the blocking portion 34 near the lower housing 12 is an inclined surface 342, the connecting member 300 is inserted from one surface of the blocking portion 34 near the lower housing 12, and the limit step 301 of the connecting member 300 abuts against the inclined surface 342 of the blocking portion 34 to generate a component force along the first direction F1, so that the connecting member 300 pushes the sliding member 30 to slide along the first direction F1 to the second sliding position along the inclined surface 342, and the connecting member 300 is squeezed into the sliding member 30 and is in contact with the positioning portion 33 for positioning. Then, the sliding member 30 is pushed by a first return spring 37 to return the sliding member 30 from the second sliding position to the first sliding position, and the blocking portion 34 faces away from the lower housing 12, i.e. the plane 341 faces the limit step 301, and at this time, since there is no contact between the limit step 301 and the inclined plane 342, there is no component force pushing the sliding member 30 to slide along the first direction F1, so that the connecting member 300 is locked in the sliding member 30, i.e. the connecting member 300 is locked in the insertion hole 20.

When the slider 30 is in the first sliding position, the first projection 51 of the blocking portion 34 in the insertion hole 20 along the insertion direction F20 overlaps the insertion hole 20, and this overlap corresponds to the portion of the inclined surface 342 of the blocking portion 34, so that the connecting element 300 is pushed into the slider 30 along the inclined surface 342, and the portion of the flat surface 341 of the blocking portion 34, viewed in the direction opposite to the insertion direction F20, so that the blocking portion 34 locks the connecting element 300 in the slider 30, i.e. in the insertion hole 20.

A second projection 52 of the positioning portion 33 in the insertion hole 20 along the insertion direction F20 is overlapped with the insertion hole 20; so that the connection member 300 is positioned in contact with the positioning part 33.

When the sliding member 30 slides along the first direction F1 to the second sliding position, the third projection 53 of the blocking portion 34 in the insertion direction F20 in the insertion hole 20 is not overlapped with the insertion hole 20, so that the connection member 300 can be inserted into or pulled out of the insertion hole 20, it should be noted that the insertion of the connection member 300 into the insertion hole 20 corresponds to the installation of the equipment module 200, and the pulling of the connection member 300 out of the insertion hole 20 corresponds to the removal of the equipment module 200. The fourth projection 54 of the positioning portion 33 in the insertion hole 20 along the insertion direction F20 completely coincides with the insertion hole 20, so that the connector 300 is positioned in contact with the positioning portion 33.

In a specific application scenario, the mounting apparatus 100 provided with 1 slider 30 and 1 insertion hole 20 (hereinafter referred to as a first mounting apparatus 110) of the present embodiment may be applied to a specific equipment module 200 in cooperation with other mounting apparatuses 100 provided with 2 sliders 30 and 2 insertion holes 20 (hereinafter referred to as a second mounting apparatus 120) and other mounting apparatuses 100 provided with 4 sliders 30 and 4 insertion holes 20 (hereinafter referred to as a third mounting apparatus 130). In this application scenario, the device is a lamp, the device module 200 is a lamp module, and the device unit is a lamp unit, it can be understood that the device may also be a reflector/diffuser/video wall element/camera/green screen/textile/scenery element or the like that needs to be installed in a shooting process of a television, a movie, a stage and content creation (youtube, tiktok, etc.).

Specifically, in this application scenario, 1 equipment unit is composed of 4 equipment modules 200 and 4 equipment modules 200, specifically, the 4 equipment modules 200 are arranged in two rows and two columns to form a large square equipment unit, four corners of the square are respectively connected with the support 400 through a first mounting device 110, in this application scenario, the support 400 is a pipe body structure, and accordingly, the support 400 connecting mechanism on the mounting device 100 is a pipe clamp matched with the pipe body structure. The adjacent 2 equipment modules 200 are connected by the second mounting device 120, and the central area of the square, that is, the intersection of the 4 equipment modules 200, is connected with the 4 equipment modules 200 by the third mounting device 130, so that the 4 equipment modules 200 are grouped into 1 equipment unit array by the 1 third mounting device 130, the 4 second mounting devices 120 and the 4 first mounting devices 110.

Wherein, each equipment module 200 is connected with the installation device 100 through the connection member 300, and the connection member 300 is installed between the installation device 100 and the installation device 100 through the cooperation of the insertion hole 20 and the sliding member 30, so that the single equipment module 200 can be removed from the equipment unit, rotated, replaced, or realigned, thereby realizing flexible detachment and installation of the equipment module 200.

The connecting element 300 and the mounting device 100 can be mounted and dismounted by the sliding element 30 on the mounting device 100 matching with the insertion hole 20 and the sliding switch 38 on the mounting device 100 without using tools, so that the equipment module 200 can be dismounted and mounted quickly.

The distance between the adjacent equipment modules 200 is equal to the distance between the two insertion holes 20 on the mounting apparatus 100, for the mounting apparatus 100 with 1 insertion hole 20 of the present embodiment, the relative positional relationship between the equipment module 200 and the bracket 400 is equal to the relative positional relationship between the insertion hole 20 and the connecting mechanism of the bracket 400, the insertion hole 20 is a part with a fixed position formed on the mounting apparatus 100, and the connecting mechanism of the bracket 400 is a part intersecting with the rotating shaft 70 and disposed on the mounting apparatus 100, so that the mounting apparatus 100 functions as a distance standard, and the mounting distance is standardized by the mounting apparatus 100, so that the distance of each equipment module 200 relative to the bracket 400 or another equipment module 200 can be accurately calculated and recorded during the mounting and dismounting process, thereby realizing accurate mounting.

Accordingly, due to the fact that the installation distance can be accurately calculated and recorded, when the application scene is switched and the equipment unit in a certain scene needs to be restored, the equipment unit can be accurately restored through the recorded configuration mode, and therefore installation and disassembly are enabled to have high repeatability.

Since the distance between two adjacent modules is converted into the distance between two insertion holes 20 on the installation device 100, and the insertion direction F20 of the connection member 300 matching with the insertion holes 20 is perpendicular to the direction in which two adjacent modules are juxtaposed or juxtaposed, no interference influence is caused to the installation distance during installation, the installation distance between two modules can be minimized, and thus, dense installation is realized, and the lamp sets can be conveniently disassembled under the condition of dense arrangement.

Wherein, realize locking and release to connecting piece 300 through slider 30 and the cooperation of patchhole 20, simultaneously, through set up connector link 84 on installation device 100, carry out dual guarantee through the cooperation of safety rope and connector link 84, when any one of them connected mode became invalid, the effect of the insurance that another connected mode played to improve the installation and the installation nature dismantled. Meanwhile, the locking mechanism 60 is arranged on the mounting device 100, the sliding of the sliding part 30 is avoided, and the connecting piece 300 is easy to insert due to the specific structure of the sliding part 30, and the locking is released through the locking mechanism 60, so that the sliding part 30 can be slid to the second sliding position through the sliding switch 38, the connecting piece 300 can be conveniently withdrawn, and the mounting and dismounting safety is ensured.

Thereby, the connection member 300 on the equipment module 200 is fixed or released by the cooperation of the sliding member 30 and the insertion hole 20, and the equipment module is flexibly, quickly, accurately, densely, highly repeatable and safely disassembled and assembled.

The above embodiments only express several embodiments of the present invention, and the description is specific and detailed, but not construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. A mounting device, comprising:

a housing having an insertion hole formed in one surface thereof;

a slider disposed in the housing, the slider corresponding to the insertion hole;

the sliding piece slides along a first direction, and a projection of the sliding piece in the insertion hole is overlapped with the insertion hole when viewed along the insertion direction of the insertion hole.

2. The mounting device of claim 1, further comprising:

the locking mechanism can slide along a second direction, and the second direction is perpendicular to the first direction;

when the locking mechanism is located at the locking position and the sliding piece is located at the first sliding position, the sliding piece is not slidable along the first direction;

when the locking mechanism slides to an unlocking position along the second direction, the sliding piece can slide along the first direction.

3. The mounting arrangement of claim 1, wherein the slider comprises:

a first body portion formed with a first through hole penetrating the first body portion in the insertion direction and communicating with the insertion hole;

and the positioning part is formed on one surface of the first main body part, which is far away from the shell and is provided with an insertion hole.

4. The mounting device of claim 3,

when the sliding piece is located at the first sliding position, a second projection of the positioning part in the insertion hole along the insertion direction is overlapped with the insertion hole;

when the sliding piece slides to a second sliding position along the first direction, a fourth projection of the positioning part in the insertion hole along the insertion direction is completely overlapped with the insertion hole.

5. The mounting arrangement of claim 3, wherein the slider further comprises:

a blocking part formed on one surface of the first body part, which is close to the shell and is provided with an insertion hole;

when the sliding piece is positioned at a first sliding position, a first projection of the blocking part in the insertion hole along the insertion direction is overlapped with the insertion hole,

when the sliding piece slides to a second sliding position along the first direction, a third projection of the blocking part in the insertion hole along the insertion direction is not coincident with the insertion hole.

6. The mounting arrangement, as set forth in claim 5, characterized in that the blocking portion comprises:

and the inclined surface is formed on one surface of the blocking part, which is close to the shell and is provided with the insertion hole.

7. The mounting arrangement, as set forth in claim 6, wherein the first projection corresponds to the ramp surface of the stop.

8. The mounting arrangement, as set forth in claim 5, characterized in that the blocking portion comprises:

and the plane is formed on one surface of the blocking part, which is far away from the shell and is provided with the insertion hole.

9. The mounting device of claim 1, wherein the housing comprises; the insertion hole is formed in the lower shell, and the insertion hole penetrates through the lower shell.

10. The mounting device of claim 2, wherein the locking mechanism comprises: retaining member, set up in on the retaining member and follow second direction slidable locking switch, set up in on the retaining member and with locking switch integrated into one piece's limiting plate and be formed in on the retaining member and with the locking arch that locking switch contacted.

11. The mounting device of claim 1, further comprising a connector clasp extending out of the housing.

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