Fixing support
阅读说明:本技术 固定支架 (Fixing support ) 是由 翁平侑 吴宥铄 于 2018-08-29 设计创作,主要内容包括:一种固定支架。该固定支架用以被固定于一设置面,并连接一物件,该固定支架包括一基座以及一连接单元;该基座用以固定于该设置面;该连接单元连接该基座,该连接单元包括一单元斜面以及至少一单元抵接部;其中,该物件包括至少一物件抵接部,当该物件处于一分离状态时,该物件抵接部与该单元抵接部分离,当该物件处于一连接状态时,该物件抵接部抵接该单元抵接部,在该物件从该分离状态移动至该连接状态的过程中,该物件抵接该单元斜面并与该单元斜面相对滑动。本发明可将物件轻易地固定于设置面之上,使用者仅需将物件上推,或略带旋转等动作,即可轻松完成物件与固定支架之间的连接,并提高了物件与固定支架之间连接时的安全性。(A fixing support. The fixing support is used for being fixed on a setting surface and connected with an object and comprises a base and a connecting unit; the base is used for being fixed on the setting surface; the connecting unit is connected with the base and comprises a unit inclined plane and at least one unit abutting part; the object comprises at least one object abutting part, when the object is in a separated state, the object abutting part is separated from the unit abutting part, when the object is in a connected state, the object abutting part abuts against the unit abutting part, and when the object moves from the separated state to the connected state, the object abuts against the unit inclined plane and slides relative to the unit inclined plane. The invention can easily fix the object on the setting surface, and the user can easily complete the connection between the object and the fixed bracket only by pushing the object upwards or slightly rotating the object, and the safety of the connection between the object and the fixed bracket is improved.)
1. A fixing support is used for being fixed on an arrangement surface and being connected with an object, and comprises:
a base, which is used for fixing on the setting surface; and
the connecting unit is connected with the base and comprises a unit inclined plane and at least one unit abutting part;
the object comprises at least one object abutting part, when the object is in a separated state, the object abutting part is separated from the unit abutting part, when the object is in a connected state, the object abutting part abuts against the unit abutting part, and when the object moves from the separated state to the connected state, the object abuts against the unit inclined plane and slides relative to the unit inclined plane.
2. The fixing bracket as claimed in claim 1, wherein the object rotates about an axis relative to the connecting unit between a first object orientation and a second object orientation, the object abutting portion is separated from the unit abutting portion when the object is in the first object orientation, the object abutting portion abuts the unit abutting portion when the object is in the second object orientation to restrict movement of the object relative to the fixing bracket in the axial direction of the axis, and the object abuts the unit inclined surface and slides relative to the unit inclined surface in a process of rotating the object from the first object orientation to the second object orientation.
3. The fixing bracket as claimed in claim 2, wherein the connection unit includes a first tray and a second tray, the first tray being connected to the base, the first tray opposing the second tray, the unit slope being formed on the first tray and facing the second tray, the unit abutment being formed on the second tray and facing the first tray, the second tray having at least one tray notch, the object abutment corresponding to the tray notch when the object is in the first object orientation.
4. The securing bracket as claimed in claim 3, wherein the object abutment portion includes a cantilever arm, the object abutment portion abutting and sliding relative to the unit inclined surface during rotation of the object from the first object orientation to the second object orientation.
5. The fixing bracket as claimed in claim 4, wherein the connecting unit further comprises a retaining wall connecting the first tray and the second tray, and a stopper disposed on the second tray and protruding toward the first tray, wherein when the object is in the second object orientation, the object abutting portion abuts against the unit abutting portion, and the object abutting portion is confined between the retaining wall and the stopper.
6. The fixing bracket of claim 1, wherein the connecting unit includes a bracket housing, a rotating member and a compression spring, the bracket housing is connected to the base, the rotating member is rotatably disposed in the bracket housing, one end of the compression spring abuts against the base, the other end of the compression spring abuts against the rotating member, and the unit inclined surface and the unit abutting portion are disposed on the rotating member.
7. The stationary bracket according to claim 6, wherein the rotary member rotates between a first rotary member state in which the object abutment portion is separated from the unit abutment portion and a second rotary member state in which the rotary member is in the second rotary member state in which the object abutment portion abuts the unit abutment portion.
8. The stationary bracket of claim 7, wherein the object includes a plurality of object ramp structures and the rotating member includes a plurality of rotating member ramp structures, the unit ramp being formed on the rotating member ramp structures, the object ramp structures contacting the rotating member ramp structures and urging the rotating member during movement of the object from a first object position to a second object position to adapt the rotating member between the first rotating member state and the second rotating member state.
9. The stationary bracket according to claim 8, wherein the rotary member further comprises a plurality of engaging projections arranged around an axis, the bracket housing comprises a plurality of first limit walls and a plurality of second limit walls, the first limit walls and the second limit walls being staggered around the axis, the engaging projections passing over the first limit walls when the rotary member is switched from the first rotary member state to the second rotary member state, and the engaging projections passing over the second limit walls when the rotary member is switched from the second rotary member state to the first rotary member state.
10. The fixing bracket as claimed in claim 9, wherein the first limiting walls are smaller in height than the second limiting walls, the rotating member is moved from a first rotating member height to a second rotating member height when the object is moved from the first object position to the second object position, the engaging protrusions are higher than the first limiting walls and the engaging protrusions are lower than the second limiting walls when the rotating member is at the second rotating member height.
11. The fixed bracket of claim 10, wherein the rotatable member is further advanced from the second rotatable member height to a third rotatable member height by rotating the object when the object is in the second object position, the engagement projections being higher than the second limiting walls when the rotatable member is at the third rotatable member height.
12. The fixing bracket as claimed in claim 11, wherein each of the first restriction walls includes a first restriction wall guide surface, each of the second restriction walls includes a second restriction wall guide surface, and each of the engagement projections includes an engagement projection guide surface abutting the first restriction wall guide surface when the engagement projection passes over the first restriction wall, and abutting the second restriction wall guide surface when the engagement projection passes over the second restriction wall.
13. The fixing bracket of claim 11, wherein the object includes at least one object-limiting groove, the bracket housing includes at least one housing-limiting protrusion located in the object-limiting groove, the housing-limiting protrusion moves along the object-limiting groove when the object is located at the second object position, the object is further rotated in a first object rotation direction such that the rotating member is moved from the second rotating member height to the third rotating member height, and when the object is to be rotated in a second object rotation direction, one side of the object-limiting groove abuts against the housing-limiting protrusion to prevent the object from rotating in the second object rotation direction, wherein the second object rotation direction is opposite to the first object rotation direction.
14. The fixing bracket as claimed in claim 11, wherein the base includes a base limiting portion, and the rotation member includes a rotation member limiting portion, and the rotation member limiting portion abuts against the base limiting portion when the base is assembled with the connecting unit.
15. The fixing bracket of claim 1, wherein the connecting unit includes a bracket housing, a torsion spring, and a stopper, the bracket housing is connected to the base, the stopper is pivotally connected to the bracket housing, the stopper includes a first stopper surface and a second stopper surface, the first stopper surface is opposite to the second stopper surface, the unit slope is formed on the first stopper surface, the unit abutting portion is formed on the second stopper surface, one end of the torsion spring abuts against the bracket housing, and the other end of the torsion spring abuts against the stopper.
16. The securing bracket as claimed in claim 15, wherein the object includes an object plate, the object plate includes a first plate surface and a second plate surface, the first plate surface is opposite to the second plate surface, an object inclined surface is formed on the first plate surface, and the object inclined surface abuts against the unit inclined surface and pushes the stopper piece to rotate during the movement of the object from a first object position to a second object position.
17. The fixing bracket as claimed in claim 16, wherein the stopping sheet rotates between a first stopping sheet orientation and a second stopping sheet orientation, the stopping sheet is pushed from the first stopping sheet orientation to the second stopping sheet orientation by the object in the process of moving the object from the first object position to the second object position, and returns from the second stopping sheet orientation to the first stopping sheet orientation by an elastic force provided by the torsion spring, and the unit abutting portion of the stopping sheet abuts against the surface of the second plate when the object is in the second object position.
18. The fixing bracket as claimed in claim 17, wherein the connecting unit further comprises a toggle member, the stop plate further has a stop plate sliding groove formed thereon, and the toggle member comprises a guide post inserted into the stop plate sliding groove and adapted to slide therein.
19. The fixed bracket of claim 17, wherein the toggle member comprises a ring, the guide post is disposed on the ring, the toggle member rotates between a first toggle member orientation and a second toggle member orientation, the stop tab is in the first stop tab orientation when the toggle member is in the first toggle member orientation, and the guide post slides within the stop slot and pushes the stop tab to rotate to the second stop tab orientation when the toggle member is rotated from the first toggle member orientation to the second toggle member orientation.
Technical Field
The present disclosure relates to fixing supports, and particularly to a fixing support for fixing an object to a setting surface.
Background
Known wireless routers are fixed above the ceiling by means of a fixed bracket. The wireless router is combined with the fixed bracket in a screw locking mode and the like. Since the wireless router has a considerable weight and requires multiple screws to be locked at multiple angles. The process of locking the wireless router to the fixed bracket often cannot be completed by a single user, which is time-consuming and has safety concerns.
Therefore, it is desirable to provide a fixing bracket to solve the above problems.
Disclosure of Invention
The present invention provides a fixing bracket for fixing to a setting surface and connecting to an object, the fixing bracket including a base and a connecting unit; the base is used for being fixed on the setting surface; the connecting unit is connected with the base and comprises a unit inclined plane and at least one unit abutting part; the object comprises at least one object abutting part, when the object is in a separated state, the object abutting part is separated from the unit abutting part, when the object is in a connected state, the object abutting part abuts against the unit abutting part, and when the object moves from the separated state to the connected state, the object abuts against the unit inclined plane and slides relative to the unit inclined plane.
In one embodiment, the object rotates around an axis between a first object orientation and a second object orientation relative to the connecting unit, when the object is in the first object orientation, the object abutting portion is separated from the unit abutting portion, when the object is in the second object orientation, the object abutting portion abuts against the unit abutting portion to limit the movement of the object relative to the fixed bracket in the axial direction of the axis, and when the object rotates from the first object orientation to the second object orientation, the object abuts against the unit inclined surface and slides relative to the unit inclined surface.
In one embodiment, the connection unit includes a first tray and a second tray, the first tray is connected to the base, the first tray is opposite to the second tray, the unit slope is formed on the first tray and faces the second tray, the unit abutting portion is formed on the second tray and faces the first tray, the second tray has at least one tray notch, and when the object is in the first object orientation, the object abutting portion corresponds to the tray notch.
In one embodiment, the object abutting portion includes a cantilever, and the object abutting portion abuts against and slides relative to the unit inclined surface during rotation of the object from the first object orientation to the second object orientation.
In an embodiment, the connection unit further includes a retaining wall and a limiting block, the retaining wall connects the first tray and the second tray, the limiting block is disposed on the second tray and protrudes toward the first tray, when the object is located at the second object position, the object abutting portion abuts against the unit abutting portion, and the object abutting portion is limited between the retaining wall and the limiting block.
In one embodiment, the connection unit includes a bracket housing, a rotating member and a compression spring, the bracket housing is connected to the base, the rotating member is rotatably disposed in the bracket housing, one end of the compression spring abuts against the base, the other end of the compression spring abuts against the rotating member, and the unit inclined plane and the unit abutting portion are disposed on the rotating member.
In one embodiment, the rotating member rotates between a first rotating member state and a second rotating member state, the object abutting portion is separated from the unit abutting portion when the rotating member is in the first rotating member state, and the object abutting portion abuts the unit abutting portion when the rotating member is in the second rotating member state.
In one embodiment, the object includes a plurality of object ramp structures, the rotating member includes a plurality of rotating member ramp structures, the unit ramp is formed on the rotating member ramp structures, and the object ramp structures contact the rotating member ramp structures and push the rotating member during movement of the object from a first object position to a second object position to adapt the rotating member to switch between the first rotating member state and the second rotating member state.
In one embodiment, the rotating member further includes a plurality of engaging protrusions arranged around an axis, the holder housing includes a plurality of first limiting walls and a plurality of second limiting walls, the first limiting walls and the second limiting walls are arranged alternately around the axis, the engaging protrusions pass over the first limiting walls when the rotating member is switched from the first rotating member state to the second rotating member state, and the engaging protrusions pass over the second limiting walls when the rotating member is switched from the second rotating member state to the first rotating member state.
In one embodiment, the first limiting walls are lower than the second limiting walls, when the object moves from the first object position to the second object position, the rotating member is moved from a first rotating member height to a second rotating member height, when the rotating member is at the second rotating member height, the engaging protrusions are higher than the first limiting walls, and the engaging protrusions are lower than the second limiting walls.
In one embodiment, the rotating member is further pushed from the second rotating member height to a third rotating member height by rotating the object when the object is at the second object position, and the engaging protrusions are higher than the second limiting walls when the rotating member is at the third rotating member height.
In one embodiment, each of the first restriction walls includes a first restriction wall guide surface, each of the second restriction walls includes a second restriction wall guide surface, and each of the fitting projections includes a fitting projection guide surface abutting the first restriction wall guide surface when the fitting projection passes over the first restriction wall and abutting the second restriction wall guide surface when the fitting projection passes over the second restriction wall.
In one embodiment, the object includes at least one object-limiting groove, the holder housing includes at least one housing-limiting protrusion located in the object-limiting groove, the housing-limiting protrusion moves along the object-limiting groove when the object is located at the second object position, the object is further rotated in a first object rotation direction such that the rotating member is moved from the second rotating member height to the third rotating member height, and when the object is to be rotated in a second object rotation direction, one side of the object-limiting groove abuts against the housing-limiting protrusion to prevent the object from rotating in the second object rotation direction, wherein the second object rotation direction is opposite to the first object rotation direction.
In one embodiment, the base includes a base limiting portion, and the rotating member includes a rotating member limiting portion, and the rotating member limiting portion abuts against the base limiting portion when the base and the connecting unit are assembled.
In one embodiment, the connecting unit includes a bracket housing, a torsion spring, and a stop piece, the bracket housing is connected to the base, the stop piece is pivotally connected to the bracket housing, the stop piece includes a first stop surface and a second stop surface, the first stop surface is opposite to the second stop surface, the unit inclined surface is formed on the first stop surface, the unit abutting portion is formed on the second stop surface, one end of the torsion spring abuts against the bracket housing, and the other end of the torsion spring abuts against the stop piece.
In one embodiment, the object comprises an object plate, the object plate comprises a first plate surface and a second plate surface, the first plate surface is opposite to the second plate surface, an object inclined surface is formed on the first plate surface, and the object inclined surface abuts against the unit inclined surface and pushes the stop piece to rotate in the process that the object moves from a first object position to a second object position.
In one embodiment, the stop piece rotates between a first stop piece orientation and a second stop piece orientation, the stop piece is pushed to the second stop piece orientation by the object from the first stop piece orientation in the process that the object moves from the first object position to the second object position, the stop piece returns to the first stop piece orientation from the second stop piece orientation under the elastic force provided by the torsion spring, and when the object is located at the second object position, the unit abutting part of the stop piece abuts against the surface of the second plate body.
In an embodiment, the connecting unit further includes a rotating member, the stopping piece further has a stopping piece sliding slot formed thereon, and the rotating member includes a guide post inserted into the stopping piece sliding slot and adapted to slide in the stopping piece sliding slot.
In an embodiment, the toggle member includes a ring, the guide post is disposed on the ring, the toggle member rotates between a first toggle member orientation and a second toggle member orientation, when the toggle member is in the first toggle member orientation, the stop piece is in the first stop piece orientation, and when the toggle member is rotated from the first toggle member orientation to the second toggle member orientation, the guide post slides in the stop piece sliding slot and pushes the stop piece to rotate to the second stop piece orientation.
By applying the fixing bracket of the embodiment of the invention, an object (such as a wireless router or other electronic devices) can be easily fixed on a setting surface (such as a ceiling). The user only needs to push the object upwards or slightly rotate the object to easily complete the connection between the object (such as a wireless router) and the fixed support, and the safety of the connection between the object and the fixed support is improved.
Drawings
Fig. 1 shows an exploded view of a first embodiment of a fixing bracket according to the invention.
Fig. 2A shows a detailed structure of the rotating member according to the first embodiment of the present invention.
FIG. 2B shows the detailed structure of the object according to the first embodiment of the present invention.
FIG. 2C shows a partial state of the article in a separated state according to the first embodiment of the present invention.
FIG. 2D shows a partial connection state of the article according to the first embodiment of the present invention.
FIG. 2E shows the object abutting against the unit inclined surface and sliding relative to the unit inclined surface according to the first embodiment of the present invention.
Fig. 3A, 3B and 3C illustrate a process of connecting an object to a fixing bracket according to a first embodiment of the present invention.
Fig. 4A shows the detailed structure of the rotating member and the bracket housing according to the first embodiment of the invention.
Fig. 4B shows the situation that the engaging protrusion of the first embodiment of the present invention is engaged between the first limiting wall and the second limiting wall.
Fig. 5A and 5B show the process of the engaging protrusion crossing the second limiting wall according to the first embodiment of the invention.
Fig. 6A, 6B and 6C show the release process of the object from the fixing bracket according to the first embodiment of the present invention.
FIG. 7 shows an object-limiting groove and a housing-limiting protrusion according to a first embodiment of the present invention.
Fig. 8A and 8B show the base position-limiting
Fig. 9A shows an exploded view of a mounting bracket according to a second embodiment of the invention.
Fig. 9B shows an assembly view of a fixing bracket according to a second embodiment of the present invention.
FIG. 10A shows the second embodiment of the present invention with the object in the first object orientation.
FIG. 10B shows the second embodiment of the present invention with the article in the second article orientation.
Fig. 11A shows an exploded view of a mounting bracket according to a third embodiment of the invention.
Fig. 11B shows a combination view of a fixing bracket according to a third embodiment of the present invention.
Fig. 12 shows a detailed structure of a baffle plate of a third embodiment of the invention.
Fig. 13A, 13B and 13C show a process of connecting an object to a fixing bracket according to a third embodiment of the present invention.
Fig. 14A and 14B show a process of detaching an object from a fixing bracket according to a third embodiment of the present invention.
Description of the main component symbols:
b1 fixed
AP1 article B3 fixed bolster
1 base AP3 article
11
2 connecting
21
211
212 second limiting
213 first limit
214 second limiting
215
22
Chute with 633 baffle plates for 221 unit
222
223 rotating part
224 engaging
225 fitting
226 rotating
23
B2 fixed bracket 91 article plate
First plate surface of
3 second plate surface of
4
401 unit inclined plane C axle center
402 unit contact part Z axis
41
42 second disk α 2 second object rotational direction
43 barricade
Detailed Description
Referring to fig. 1, there is shown an exploded view of a mounting bracket B1 according to a first embodiment of the present invention. The fixing bracket B1 is used to be fixed on a setting surface (e.g., a ceiling, not shown) and connected with an object AP1 (e.g., a wireless router or other electronic device). The fixing bracket B1 includes a
Referring to fig. 1, in an embodiment, the connection unit 2 includes a
Fig. 2A shows a detailed structure of the rotating
Referring to fig. 2C and 2D, in this embodiment, the
With reference to fig. 2B and 2E, in one embodiment, the object includes a plurality of
Through the above design, the object AP1 can be easily hung on the installation surface through the fixing bracket B1.
Referring to fig. 4A, in one embodiment, the rotating
With reference to fig. 3A to 3C, fig. 4A and 4B, in an embodiment, the height of the first limiting
The release process of the article AP1 to disengage from the fixed bracket B1 is described below. Referring to fig. 6A-6C, the release process of the article AP1 from the fixed bracket B1 is shown. When it is desired to detach the object AP1 from the fixed bracket B1, in the state where object AP1 is connected to the fixed bracket B1, the object AP is translated upward from the first object position (FIG. 6A, connected state) to the second object position (FIG. 6B). Next, referring to fig. 5A and 5B in combination, by rotating the object AP1 (fig. 6B), the object inclined
Referring to fig. 4A, in one embodiment, each of the
Referring to fig. 7, the object includes at least one
Referring to fig. 8A and 8B, in an embodiment, the
Fig. 9A shows an exploded view of a second embodiment of a mounting bracket B2 of the present invention. Fig. 9B shows an assembly view of a fixing bracket B2 of the second embodiment of the present invention. Referring to fig. 9A and 9B, in this embodiment, the fixing bracket B2 includes a
Referring to fig. 9A, in an embodiment, the
Referring to fig. 10A and 10B, in one embodiment, the
Referring to fig. 10A and 10B, in an embodiment, the
Referring to fig. 11A and 11B, a fixing bracket B3 for being fixed to a mounting surface (not shown) and connected to an object AP3 according to a third embodiment of the present invention is shown. The fixing bracket B3 includes a
Referring to fig. 11A, 12, 13A, 13B and 13C, in one embodiment, the object AP3 includes an object plate 91, the object plate 91 includes a
Referring to fig. 13A, 13B and 3C, in one embodiment, the
Referring to fig. 11A, fig. 14A and fig. 14B, in an embodiment, the
Referring to fig. 11A, 14A and 14B, in one embodiment, the
By applying the fixing bracket of the embodiment of the invention, an object (such as a wireless router or other electronic devices) can be easily fixed on a setting surface (such as a ceiling). The user only needs to push the object upwards or slightly rotate the object to easily complete the connection between the object (such as a wireless router) and the fixed support, and the safety of the connection between the object and the fixed support is improved.
Although the present invention has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
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