CN212537394U - Installation component and equipment component - Google Patents

Abstract

The utility model provides an installation component and equipment module, this installation component includes: the installation part main body and the self-locking mechanism. A mounting member body including a fixing portion and a mounting portion; the side wall of the mounting part is vertical to the fixing part and is provided with a first mounting hole; the mounting wall of the mounting part is arranged on the side wall, the mounting wall is provided with a second mounting hole, the second mounting hole comprises a first branch hole and a second branch hole which are communicated, and the aperture of the first branch hole is larger than that of the second branch hole; the self-locking mechanism is positioned between the mounting wall and the fixing part and comprises a fixing shaft, an elastic structural part and a wrench; the elastic structural part is sleeved on the fixed shaft and is respectively connected with the side wall and the wrench; the pressing part of the wrench extends out of the first mounting hole, the pressing part of the wrench is pressed, the wrench rotates around the fixed shaft, and the elastic structural member is compressed; the stopping part is used for limiting the equipment in the second branch hole, the stopping part is provided with a notch, and the first branch hole is exposed from the notch. This scheme of adoption can improve equipment and installation component's reliability of being connected, and the dismouting convenience of equipment.

Description

Installation component and equipment component

Technical Field

The utility model relates to the field of communication technology, especially, relate to an installation component and equipment module.

Background

The wireless network Access (AP) device is a bridge for communication between a wireless network and a wired network, can be used to construct a wifi network, and brings efficient and convenient life to people, and is one of common network devices.

In order to improve the coverage area and the strength of the wireless wifi signal, the AP device placed indoors is usually set to be high-altitude ceiling or high-altitude wall-hung. In addition, in order to improve the installation aesthetic property of the AP device, the installation part for installing the AP device is usually hidden at the back of the AP device so as to make the appearance invisible.

However, in high altitude, when assembling and dismantling the AP device from the concealed installation member, the operation is inconvenient, time-consuming and labor-consuming, and the safety and reliability are low.

SUMMERY OF THE UTILITY MODEL

The utility model provides an installation component and equipment module to in the dismantlement between equipment and the installation component, improve operation fail safe nature.

In a first aspect, the present invention provides a mounting assembly for mounting a device on a wall, a roof or a support. This installation component includes the installed part main part to and self-locking mechanism, wherein: the mounting piece main body mainly comprises a fixing part and a mounting part; the mounting part comprises a side wall and a mounting wall, the side wall is perpendicular to the fixing part and is connected with the fixing part, and a first mounting hole is formed in the side wall; the mounting wall is arranged at one end of the side wall far away from the fixing part, the mounting wall is provided with a second mounting hole, the second mounting hole comprises a first branch hole and a second branch hole which are communicated, and the aperture of the first branch hole is larger than that of the second branch hole; the self-locking mechanism comprises a fixed shaft, an elastic structural part and a wrench; the fixed shaft is fixed between the mounting wall and the fixed part; the elastic structural member can be but is not limited to a torsion spring, a tension spring or a compression spring, the elastic structural member is sleeved on the fixed shaft, one end of the elastic structural member is fixed on the side wall, and the other end of the elastic structural member is fixed on the wrench; the wrench comprises a pressing part and a stopping part, the pressing part extends out of the mounting part main body from the first mounting hole, when the pressing part is pressed, the wrench can rotate around the fixed shaft, the elastic structural part is in a compressed state, and elastic force is accumulated; the stopping part is used for limiting the equipment in the second branch hole, the stopping part is provided with a notch, and the first branch hole can be exposed from the notch. Adopt the utility model discloses installation component, the reliability of being connected that can effectual improve equipment and installation component to and the dismouting convenience of equipment.

The utility model discloses in a possible implementation, the installation department can be two, and these two installation departments set up respectively in two relative tip of fixed part. In addition, the installation part and the fixing part can be integrally formed into the installation part main body, so that the structural stability of the installation part main body is improved, and the installation of the equipment and the installation assembly is safer and more reliable.

The utility model discloses in a possible implementation, at the spanner around fixed axle pivoted in-process, the splenium can be followed first mounting hole and slided according to the spanner to make the motion of spanner comparatively steady.

The utility model discloses in a possible implementation, when specifically setting up the backstop portion of spanner, backstop portion can be under elastic construction's extrusion, and with the installation laminating mutually, be favorable to improving spanner pivoted stationarity like this. In addition, the stopping portion further has a stopping edge, the stopping edge may be an edge of the stopping portion close to the second branch hole, and the stopping edge may be, but is not limited to, a straight edge or an arc edge. When the equipment is installed in the second branch hole, the equipment is limited in the second branch hole through the stop edge, so that the connection reliability of the equipment and the installation assembly is improved.

In addition, a guide structure may be provided on the stopper, and the guide structure may be one inclined edge of the notch on the stopper, and the inclined edge is inclined in a direction from the first branch hole to the second branch hole. To provide guidance for the device during its movement from the first porthole to the second porthole to achieve a smooth installation of the device.

The utility model discloses a possible implementation way, the installation wall can also be provided with the third mounting hole, and the fixed axle can be installed in this third mounting hole like this to with this third mounting hole fixed connection. Optionally, the fixed shaft may be a pin or a stud, etc. to function as a rotating shaft. In addition, the fixed shaft can be arranged on one side of the first branch hole, which is far away from the second branch hole, and at the moment, the opening of the notch can be arranged towards the side wall. So as to avoid the collision between the stopping part and the side wall in the process of the rotation of the wrench.

In a second aspect, the present invention also provides an equipment set comprising equipment and the mounting assembly of the first aspect. The equipment is provided with the mounting structure, when the equipment is mounted on the mounting assembly, the mounting structure can be mounted in the first branch hole of the second mounting hole and moved to the second branch hole from the first branch hole, and the stop part of the wrench can limit the mounting part in the second branch hole, so that the equipment is mounted. When taking off equipment from this installation component, press the splenium of pressing of spanner, the spanner rotates around the fixed axle, and backstop portion dodges the second mounting hole, divides the hole to remove to first branch hole from the second of second mounting hole with equipment, can realize dismantling of equipment. Adopt the utility model discloses equipment component can realize equipment and installation component's reliability of being connected to and the dismouting convenience of equipment.

Drawings

FIG. 1 is an exploded view of an equipment assembly provided by the prior art;

FIG. 2 is a schematic diagram of an installation process of a device assembly provided in the prior art;

FIG. 3 is a schematic illustration of a prior art disassembly process of an equipment assembly;

FIG. 4 is a schematic diagram of an apparatus assembly provided in the prior art;

FIG. 5 is a schematic view of the structure at A in FIG. 4;

fig. 6 is a schematic structural diagram of a mounting assembly according to an embodiment of the present invention;

fig. 7 is an exploded view of a mounting assembly according to an embodiment of the present invention;

FIG. 8 is a schematic view of a portion of the structure of FIG. 6 at B;

fig. 9 is a schematic view of a positional relationship between a wrench and a fourth mounting hole of the mounting assembly according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of an apparatus assembly according to an embodiment of the present invention;

fig. 11 is a schematic view illustrating a positional relationship between a wrench and a fourth mounting hole of another mounting assembly according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of an apparatus assembly according to an embodiment of the present invention;

fig. 13 is a schematic diagram of a positional relationship between a wrench and a fourth mounting hole of another mounting assembly according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

For the convenience of understanding the installation component provided by the embodiment of the present invention, an application scenario thereof will be described first. The mounting assembly is used for mounting equipment on a wall, a roof or a support and other high-altitude scenes, wherein the equipment can be wireless Access (AP) equipment and other equipment which needs to be hung under the high-altitude scenes and can be detached. When the device is used, the device can be hung by mounting the device on the mounting component; when the equipment needs maintenance or replacement, it can be removed from the mounting assembly.

In one prior art solution, referring to fig. 1, an apparatus assembly includes a mounting assembly and an apparatus 02, wherein the mounting assembly mainly includes a mounting member main body 01, and a first mounting hole 011 and a second mounting hole 012 which are provided on the mounting member main body 01. The mounting member main body 01 is mounted on a wall, a roof, a bracket or other bearing structure through the first mounting hole 011. A mounting structure 021 is provided on the device 02 such that the device 02 is fixed to the mounting assembly by the mounting structure 021 fitting into the second mounting hole 012.

When specifically installing equipment 02 in the installation component, referring to fig. 2, the second installation hole 012 has a first branch hole 0121 and a second branch hole 0122, the aperture of the first branch hole 0121 is larger than the aperture of the second branch hole 0122, the first branch hole 0121 is communicated with the second branch hole 0122, the installation structure 021 of the equipment 02 is installed in the second installation hole 012 from the first branch hole 0121, and then moves along the arrow direction in the figure, so that the installation structure 021 is clamped in the second branch hole 0122 of the second installation hole 012, referring to fig. 3, thereby realizing the fixation of the equipment 02. The connection state of the device 02 with the installation component can be referred to fig. 4.

When it is desired to remove the device 02 from the mounting assembly, referring to fig. 3 and 4 together, the device 02 can be removed directly by moving the device 02 according to the arrow shown in fig. 3, such that the mounting structure 021 is moved from the second sub-hole 0122 of the second mounting hole 012 to the first sub-hole 0121.

In addition, in this embodiment, referring to fig. 5, the mounting part main body 01 is further provided with a first stop protrusion 013, the device 02 is provided with a second stop protrusion 022, and when the device 02 is mounted to the mounting component, the first stop protrusion 013 and the second stop protrusion 022 are in stop-and-lock engagement so as to prevent the mounting structure 021 from falling off from the corresponding second mounting hole 012 after the device 02 is mounted to the mounting component. However, the first stop protrusion 013 and the second stop protrusion 022 are used for stopping, so that the device 02 is not completely locked, and in case of severe vibration, the device 02 still has a risk of falling off, and the reliability is poor. In order to solve the above problem, the present invention provides a mounting assembly, which is described in detail below with reference to the accompanying drawings.

Referring to fig. 6, the installation component provided in the embodiment of the present invention mainly includes an installation component main body 1, and a self-locking mechanism 2 installed in the installation component main body 1. Wherein, the material of installed part main part 1 can be panel beating, plastic or die casting etc. to make its structure comparatively stable, bearing capacity is stronger.

When the mounting device body 1 is specifically arranged, the mounting device body 1 may be provided as a fixing portion 101 and a mounting portion 102 which are connected, wherein the fixing portion 101 may be used for fixing the mounting device body 1 to a bearing structure such as a wall, a roof or a bracket. Specifically, a plurality of mounting holes 1011 may be disposed on the fixing portion 101, the plurality of mounting holes 1011 may be distributed at the edge of the fixing portion 101, and the number of the mounting holes 1011 may be selected according to the size of the mounting part main body 1, so that the mounting part main body 1 and the bearing structure may be fixed by using a structural member passing through the mounting holes 1011, wherein the structural member may be, but is not limited to, a screw, a bolt, and other fasteners. It should be noted that the fixing portion 101 may be a flat structure, so that when being fixed, it can be closely attached to a bearing structure such as a wall, a roof or a bracket, so as to improve the connection reliability, and thus, the fixing portion can play a role of stable support.

In addition, with reference to fig. 6, a wire passing hole 1012 may be provided in the fixing portion 101, so that cables such as network cables and electric wires led out from the supporting structure may be inserted into the wire passing hole 1012, thereby realizing the arrangement and fixing of the cables, and facilitating the connection with the equipment mounted on the mounting device body 1 at a later stage.

When the mounting portion 102 is specifically provided, the mounting portion 102 can be used to mount the device to the mounting member body 1, wherein the mounting portion 102 can be a bent structure provided on the fixing portion 101, such as an L-shaped structure in fig. 6, and the bent structure can be two, the two bent structures are provided on two opposite ends of the fixing portion 101, and the two bent structures are arranged oppositely. The mounting portion 102 may be integrally formed with the fixing portion 101, and in this case, the mounting portion 102 may be a bent side of the fixing portion 101.

In the embodiment of the present invention, when the mounting portion 102 is an L-shaped structure, referring to fig. 7, the L-shaped structure includes a side wall 1021 perpendicular to the plane of the fixing portion 101, and a mounting wall 1022 parallel to the plane of the fixing portion 101, wherein the mounting wall 1022 is fixed to an end portion of the side wall 1021 away from the fixing portion 101. A mounting hole 10211 is provided in a side wall 1021 of the mounting portion 102, and a mounting hole 10221 and a mounting hole 10222 are provided in a mounting wall 1022. Referring also to fig. 6, it can be seen that the mounting holes 10222 may be plural, and the plural mounting holes 10222 may be distributed along the extending direction of the mounting wall 1022 to meet the mounting requirement of the device. In addition, when there are a plurality of mounting holes 10222, the mounting device body 1 can be adapted to the mounting requirements of various apparatuses, thereby being beneficial to expanding the applicable range of the mounting assembly including the mounting device body 1.

With continued reference to fig. 6, to enable installation of the device, the installation hole 10222 may include a first sub-hole 10222a and a second sub-hole 10222b, and the first sub-hole 10222a and the second sub-hole 10222b communicate with each other. This allows the mounting structure of the device to be smoothly inserted into the first sub-hole 10222a and moved to the second sub-hole 10222b, so that the mounting structure of the device can be engaged with the mounting hole 10222.

Referring to fig. 7, fig. 7 is an exploded view of fig. 6. When the self-locking mechanism 2 is specifically provided, the self-locking mechanism 2 is mainly composed of three parts, namely a wrench 201, an elastic structural member 202 and a fixing shaft 203. The wrench 201 can rotate around the fixing shaft 203, and the elastic structure 202 is sleeved on the fixing shaft 203. The elastic structure 202 may be a torsion spring, a pressure spring, or a tension spring, and the fixing shaft 203 may be a pin or a stud.

When the self-lock mechanism 2 is attached to the mount main body 1, the self-lock mechanism 2 is attached to the attachment hole 10221 of the mount main body 1 along the dotted line in fig. 7. In fig. 7, the self-locking mechanism 2 is provided only at a position corresponding to one mounting hole 10222 so as to be used in a scene of mounting and dismounting with one-hand operation. In some embodiments of the present invention, a plurality of self-locking mechanisms 2 may be further disposed in correspondence to each mounting hole 10222, so as to improve the connection reliability between the device and the mounting member main body 1.

In order to understand the connection relationship between the self-locking mechanism 2 and the mounting member body 1, fig. 8 is referred to, and fig. 8 is a partial view of fig. 6 from the direction B. As can be seen in fig. 8, the fixing shaft 203 is disposed between the mounting wall 1022 and the fixing portion 101 and is mounted to the mounting hole 10221 to be fixed to the mounting member main body 1, and in the embodiment of the present invention, the fixing shaft 203 is mainly used as a rotation shaft of the elastic structure 202 and the wrench 201 (not shown in fig. 8, refer to fig. 7). In addition, in order to improve the reliability of the connection between the fixed shaft 203 and the mounting device body 1, the fixed part 101 may be provided with a hole facing the mounting hole 10221 so that the fixed shaft 203 is simultaneously inserted into the two facing holes, and at this time, the mounting hole 10221 may be a threaded hole, and the fixed shaft 203 may be screwed into the mounting hole 10221 and be in interference fit with the hole of the fixed part 101 facing the mounting hole 10221. Or, the fixed shaft 203 is in interference fit with the two oppositely arranged holes at the same time.

With continued reference to fig. 8, one end of the elastic structure 202 is connected to the wrench 201 (see fig. 7), and the other end is fixed to the sidewall 1021 of the mounting portion, so that an elastic force exists between the elastic structure 202 and the wrench 201. When the wrench 201 is specifically provided, the wrench 201 may further include a stopper 2011 and a pressing portion 2012, wherein the pressing portion 2012 can extend out from the mounting hole 10211 to an outside of the mounting member main body, and as can be seen from fig. 8, the pressing portion 2012 is located at an outer side of the sidewall 1021, so that a user can see and press the pressing portion 2012. In addition, the pressing portion 2012 is in clearance fit with the mounting hole 10211, so that the pressing portion 2012 can slide in the mounting hole 10211 during the rotation of the wrench 201 around the fixing shaft 203. Referring to fig. 8 and 9, the stopper 2011 is disposed near the mounting hole 10222 to limit a structural member (e.g., the mounting structure 301 of the device) mounted to the mounting hole 10222. In addition, a through hole (not shown) may be provided on the stopper 2011, so that the fixing shaft 203 passes through the through hole, thereby enabling the wrench 201 to rotate around the fixing shaft 203. Referring to fig. 8, the elastic structural member 202 may also be connected to the stopping portion 2011, so that when the elastic structural member 202 is connected to the wrench 201 and the side wall 1021 of the mounting portion 102, the elastic structural member 202 may press the stopping portion 2011 to make the stopping portion 2011 fit to the mounting wall 1022, which may effectively improve the reliability of the movement of the wrench 201.

Referring to fig. 9, fig. 9 shows the positional relationship of wrench 201 and mounting hole 10222. It can also be seen that the stopper 2011 of the wrench 201 is provided with a notch 20111, and the notch 20111 can expose the first sub-hole 10222a of the mounting hole 10222, so that when the mounting structure 301 of the device is inserted into the first sub-hole 10222a, the notch 20111 can play a role in avoiding the mounting structure 301. In addition, a guiding structure 20112 may be further disposed on the notch 20111, and the guiding structure 20112 may be a tilted edge of the notch 20111, which is tilted along the installation direction of the device (the direction indicated by the arrow in fig. 9) so as to guide the installation structure 301 of the device when the device is installed in the installation hole 10222.

With continued reference to fig. 9, in order to achieve a stopping function for the device, so as to prevent the device mounted on the mounting assembly from falling off, a stop edge 2011 may be further disposed on the stop 2011, and the stop edge 20113 may be, but is not limited to, a stop straight edge or a stop circular arc edge disposed in a detaching direction of the device (a direction opposite to a direction indicated by an arrow in fig. 9).

With the structure of the mounting assembly of the embodiments of the present invention in mind, the mounting and dismounting of the device from the mounting assembly will be described below. The embodiment of the utility model provides an in, equipment can install in bearing structure such as wall body, roof or support, for the explanation, for the convenience of explanation, below use equipment to set up in the roof as the example, explain the installation and the dismantlement of equipment, under other high altitude scenes, the installation and the dismantlement of equipment are similar, no longer give unnecessary details.

Referring to fig. 10, fig. 10 is a schematic structural diagram of the installation component and the equipment assembly formed by the installation of the equipment, and the relative position relationship between the installation component and the equipment is shown. Wherein the fixing part 101 of the mount body 1 is fixed to a roof (not shown in fig. 10), and the mounting part 102 of the mount body 1 is provided on a side of the fixing part 101 facing the equipment 3. The side of the device 3 provided with the mounting structure 301 is arranged opposite the mounting portion 102.

When the device 3 is mounted on the mounting device main body 1, referring to fig. 9, the mounting structure 301 of the device 3 may be inserted into a portion of the first branch hole 10222a of the mounting hole 10222, at this time, the mounting structure 301 also extends into the notch 20111 of the stopper 2011 of the wrench 201, and at this time, the wrench 201 is in the initial position; then, the device 3 is moved in the mounting direction (the direction indicated by the arrow in fig. 9), and the inclined edge of the stopper 2011 serves as a guide structure 20112 to guide the mounting structure 301 so that the mounting structure 301 moves from the first sub-hole 10222a to the second sub-hole 10222b of the mounting hole 10222 along the inclined edge. During the process that the mounting structure 301 moves along the inclined edge, the wrench 201 rotates around the fixing shaft 203 (see fig. 8 in combination) to compress the elastic structural member 202, and the elastic force between the wrench 201 and the elastic structural member 202 is increased; when the mounting structure 301 moves to the second sub-hole 10222b of the mounting hole 10222, the elastic structural member 202 releases the elastic force, the wrench 201 rotates around the fixing shaft 203 to reset, the reset state of the wrench 201 can be referred to fig. 11, the stopper 2011 plays a role in stopping the mounting structure 301, and the mounting structure 301 is stopped at the second sub-hole 10222b of the mounting hole 10222, so that the mounting structure 301 is locked at the mounting hole 10222, and the mounting of the device and the mounting assembly is realized. This locking process can not increase user's operation, can realize quick installation, but also can make equipment and the reliable connection of installation component.

Referring to fig. 12, fig. 12 is a schematic structural diagram of an apparatus assembly formed by mounting the apparatus 3 on a mounting assembly, specifically, a state diagram of the apparatus 3 mounted on a roof by the mounting assembly. When the apparatus 3 is to be serviced or replaced, the apparatus 3 needs to be removed from the mounting assembly. At this time, the user can press the pressing part 2012 of the wrench in the direction indicated by the solid arrow in fig. 12, and the wrench rotates about the fixed shaft. Referring to fig. 13, (the solid arrow in fig. 13 is the same as the direction indicated by the solid arrow in fig. 12) at this time, the stopper 2011 of the wrench completely avoids the mounting hole 10222, and referring to fig. 12 and 13 together, the user can move in the detaching direction (the direction indicated by the dotted arrow in fig. 12 and 13), and referring to fig. 13, the mounting structure 301 of the device is moved from the second sub-hole 10222b of the mounting hole 10222 to the first sub-hole 10222a, and then the device is directly detached. Refer to fig. 12, install in the utility model discloses the equipment of installation component, at the in-process of dismantling, can realize single high altitude dismantlement, its operation experience is better, and the security is higher.

The above embodiments are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (69)

1. A mounting assembly for mounting equipment, comprising: the installed part main part to and self-locking mechanism, wherein:

the mounting piece main body comprises a fixing part and a mounting part;

the mounting part comprises a side wall and a mounting wall, the side wall is perpendicular to the fixing part and is connected with the fixing part, and the side wall is provided with a first mounting hole; the mounting wall is arranged at one end, far away from the fixing part, of the side wall, and is provided with a second mounting hole, the second mounting hole comprises a first branch hole and a second branch hole which are communicated, and the aperture of the first branch hole is larger than that of the second branch hole;

the self-locking mechanism comprises a fixed shaft, an elastic structural part and a wrench; the fixed shaft is fixed between the mounting wall and the fixing part; the elastic structural part is sleeved on the fixed shaft, one end of the elastic structural part is fixed on the side wall, and the other end of the elastic structural part is fixed on the wrench;

the wrench comprises a pressing part and a stopping part, the pressing part extends out of the mounting part main body from the first mounting hole, the pressing part is pressed, the wrench rotates around the fixed shaft, and the elastic structural part is in a compressed state; the stopping part is used for limiting the equipment in the second branch hole, the stopping part is provided with a notch, and the first branch hole can be exposed from the notch.

2. The mounting assembly of claim 1 wherein said pressing portion slides along said first mounting hole when said wrench is rotated about said fixed axis.

3. The mounting assembly of claim 1, wherein the stopper portion has a stop edge, the stop edge is an edge of the stopper portion close to the second sub-hole, and the stop edge is a straight edge or an arc edge.

4. The mounting assembly of claim 2, wherein the stopper portion has a stop edge, the stop edge is an edge of the stopper portion close to the second sub-hole, and the stop edge is a straight edge or an arc edge.

5. The mounting assembly of any of claims 1-4, wherein the stop further comprises a guide structure, the guide structure is an inclined edge of the notch, and the inclined edge is inclined in a direction from the first sub-hole to the second sub-hole.

6. The mounting assembly of any one of claims 1 to 4, wherein the fixing shaft is disposed on a side of the first sub-aperture away from the second sub-aperture, and the gap is open to the side wall.

7. The mounting assembly of claim 5, wherein the fixed shaft is disposed on a side of the first sub-aperture away from the second sub-aperture, the notch opening toward the sidewall.

8. The mounting assembly of any of claims 1-4 wherein the stop abuts the mounting wall.

9. The mounting assembly of claim 5 wherein the stop abuts the mounting wall.

10. The mounting assembly of claim 6 wherein said stop abuts said mounting wall.

11. The mounting assembly of claim 7 wherein the stop abuts the mounting wall.

12. The mounting assembly of any one of claims 1 to 4, wherein the mounting wall is further provided with a third mounting hole, and the fixing shaft is inserted into and fixed to the third mounting hole.

13. The mounting assembly of claim 5 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

14. The mounting assembly of claim 6 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

15. The mounting assembly of claim 7 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

16. The mounting assembly of claim 8 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

17. The mounting assembly of claim 9 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

18. The mounting assembly of claim 10 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

19. The mounting assembly of claim 11 wherein said mounting wall is further provided with a third mounting hole, said stationary shaft being inserted through and secured to said third mounting hole.

20. The mounting assembly of any of claims 1-4, wherein the fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

21. The mounting assembly of claim 5 wherein said fixed shaft is a pin or stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

22. The mounting assembly of claim 6 wherein said fixed shaft is a pin or stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

23. The mounting assembly of claim 7 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

24. The mounting assembly of claim 8, wherein the fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

25. The mounting assembly of claim 9 wherein said fixed shaft is a pin or stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

26. The mounting assembly of claim 10 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

27. The mounting assembly of claim 11 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

28. The mounting assembly of claim 12 wherein said fixed shaft is a pin or stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

29. The mounting assembly of claim 13 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

30. The mounting assembly of claim 14 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

31. The mounting assembly of claim 15 wherein said fixed shaft is a pin or stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

32. The mounting assembly of claim 16 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

33. The mounting assembly of claim 17 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

34. The mounting assembly of claim 18 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

35. The mounting assembly of claim 19 wherein said fixed shaft is a pin or a stud; and/or the elastic structural part is a torsion spring, a tension spring or a compression spring.

36. The mounting assembly of any of claims 1-4, wherein the mounting portion is disposed at opposite ends of the fixing portion.

37. The mounting assembly of claim 5 wherein said mounting portion is disposed at opposite ends of said fixed portion.

38. The mounting assembly of claim 6 wherein said mounting portion is disposed at opposite ends of said fixed portion.

39. The mounting assembly of claim 7 wherein said mounting portion is disposed at opposite ends of said fixed portion.

40. The mounting assembly of claim 8 wherein said mounting portion is disposed at opposite ends of said fixed portion.

41. The mounting assembly of claim 9 wherein said mounting portion is disposed at opposite ends of said fixed portion.

42. The mounting assembly of claim 10 wherein said mounting portion is disposed at opposite ends of said fixed portion.

43. The mounting assembly of claim 11 wherein said mounting portion is disposed at opposite ends of said fixed portion.

44. The mounting assembly of claim 12 wherein said mounting portion is disposed at opposite ends of said fixed portion.

45. The mounting assembly of claim 13 wherein said mounting portion is disposed at opposite ends of said fixed portion.

46. The mounting assembly of claim 14 wherein said mounting portion is disposed at opposite ends of said fixed portion.

47. The mounting assembly of claim 15 wherein said mounting portion is disposed at opposite ends of said fixed portion.

48. The mounting assembly of claim 16 wherein said mounting portion is disposed at opposite ends of said fixed portion.

49. The mounting assembly of claim 17 wherein said mounting portion is disposed at opposite ends of said fixed portion.

50. The mounting assembly of claim 18 wherein said mounting portion is disposed at opposite ends of said fixed portion.

51. The mounting assembly of claim 19 wherein said mounting portion is disposed at opposite ends of said fixed portion.

52. The mounting assembly of claim 20 wherein said mounting portion is disposed at opposite ends of said fixed portion.

53. The mounting assembly of claim 21 wherein said mounting portion is disposed at opposite ends of said fixed portion.

54. The mounting assembly of claim 22 wherein said mounting portion is disposed at opposite ends of said fixed portion.

55. The mounting assembly of claim 23 wherein said mounting portion is disposed at opposite ends of said fixed portion.

56. The mounting assembly of claim 24 wherein said mounting portion is disposed at opposite ends of said fixed portion.

57. The mounting assembly of claim 25 wherein said mounting portion is disposed at opposite ends of said fixed portion.

58. The mounting assembly of claim 26 wherein said mounting portion is disposed at opposite ends of said fixed portion.

59. The mounting assembly of claim 27 wherein said mounting portion is disposed at opposite ends of said fixed portion.

60. The mounting assembly of claim 28 wherein said mounting portion is disposed at opposite ends of said fixed portion.

61. The mounting assembly of claim 29 wherein said mounting portion is disposed at opposite ends of said fixed portion.

62. The mounting assembly of claim 30 wherein said mounting portion is disposed at opposite ends of said fixed portion.

63. The mounting assembly of claim 31 wherein said mounting portion is disposed at opposite ends of said fixed portion.

64. The mounting assembly of claim 32 wherein said mounting portion is disposed at opposite ends of said fixed portion.

65. The mounting assembly of claim 33 wherein said mounting portion is disposed at opposite ends of said fixed portion.

66. The mounting assembly of claim 34 wherein said mounting portion is disposed at opposite ends of said fixed portion.

67. The mounting assembly of claim 35 wherein said mounting portion is disposed at opposite ends of said fixed portion.

68. A mounting assembly according to any of claims 1 to 4, wherein the mounting member body is of unitary construction.

69. An equipment assembly, comprising: apparatus, and a mounting assembly as claimed in any one of claims 1 to 68, wherein: the equipment is provided with a mounting structure, the mounting structure is mounted in the second mounting hole, and the stop part of the wrench limits the mounting structure in the second sub-hole.

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