CN112728366B - Bracket assembly for equipment installation - Google Patents

Abstract

The invention discloses a bracket assembly for equipment installation. According to the invention, the bracket component for mounting the equipment comprises the main frame plate and the auxiliary support plate which support the detachable assembly, so that the electronic equipment is not required to provide an integrated structure and embedded space for the bracket component, and the structure is simplified, the cost is reduced, and the occupation of the internal space of the equipment is reduced. The main frame plate can be detachably assembled with the equipment rear shell of the electronic equipment, so that wall-mounted installation of the electronic equipment is realized; in addition, the main frame plate and the auxiliary support plate can be detachably assembled with the equipment rear shell of the electronic equipment in cooperation, so that the electronic equipment can be placed and installed on planes in different postures, and multi-posture plane placing and installing of the electronic equipment can be supported.

Description

Bracket assembly for equipment installation

Technical Field

The invention relates to equipment installation technology, in particular to a support assembly for equipment installation, which supports electronic equipment (such as entrance guard talkback equipment or attendance equipment) to select wall hanging or plane placement.

Background

Electronic equipment such as entrance guard talkback or attendance equipment for human-computer interaction generally needs to support two mounting modes of wall hanging and plane placing so as to be convenient for being compatible with mounting conditions of different application scenes and use requirements of different users.

For this purpose, such electronic devices are usually equipped with a bracket assembly integrated into the device body and adjustable in posture for switching between wall-mounted and flat-mounted installation modes.

However, the integration structure between the bracket assembly and the main body of the device results in a relatively complex product structure and relatively high manufacturing cost; moreover, for the bracket assembly integrated with the device main body, an additional embedded space is required for the device main body, thereby causing the internal space of the device to be excessively occupied; in addition, the support component is limited by an integrated structure between the support component and the equipment main body, and only one corresponding inherent posture can be provided when the installation mode of plane placement is realized.

Therefore, how to realize multi-posture installation with a relatively simple structure, relatively low cost and less occupation of the internal space of the equipment becomes a technical problem to be solved in the prior art.

Disclosure of Invention

In one embodiment, a bracket assembly for equipment installation is provided, which helps to simplify the structure, reduce the cost and the occupation of the internal space of the equipment, and can support multi-posture flat-surface installation.

The rack assembly for equipment mounting in this embodiment may include:

the main frame plate is used for being detachably assembled with the equipment rear shell of the electronic equipment when the electronic equipment is installed in a wall-mounted or plane-mounted mode;

the auxiliary support plate is used for being detachably assembled with the main frame plate when the electronic equipment is installed in the plane placing mode;

wherein:

when the electronic equipment is installed in a wall-mounted manner, the main frame plate is detachably and fixedly attached to the equipment rear shell, and the auxiliary support plate is separated from the main frame plate;

when the electronic equipment is installed in the plane placing mode, the main frame plate and the auxiliary support plate are detachably assembled in a butt joint mode at a preset assembling angle, so that:

if the main frame plate is detachably and fixedly attached to the equipment rear shell, the main frame plate forms a tilt support for the electronic equipment at the assembling angle relative to the auxiliary support plate;

if the main frame plate is detachably inserted into the device rear shell at a preset customized angle, and the auxiliary support plate abuts against the device rear shell to keep the main frame plate and the device rear shell at the customized angle, the main frame plate and the device rear shell form a triangular support for the electronic device at the customized angle.

Optionally, the device rear shell has a mounting boss and a mounting chute located on a side wall of the mounting boss; the main frame plate is provided with an installation window and an installation sliding sheet positioned at the side edge of the installation window; wherein the mounting window comprises a first window region in which the mounting boss can be received and a second window region in which the mounting tab is disposed at a side edge; when the installation boss enters the installation window from the first window area and is guided to the second window area through the insertion sliding of the installation sliding groove and the installation sliding sheet, the main frame plate and the equipment rear shell are fixedly attached through the insertion between the installation sliding groove and the installation sliding sheet.

Optionally, the bottom end of the rear shell of the device is further provided with a fitting hole groove; the end part of the frame plate of the main frame is further provided with an assembling support leg formed by bending; when the main frame plate is fixedly attached to the equipment rear shell, the assembling support legs are clamped into the embedding hole grooves.

Optionally, the assembly foot has a screw hole; the embedded hole groove is provided with an embedded nut; the main frame plate and the equipment rear shell are further locked in a fixed and attached state through a locking screw penetrating through the screw hole and connected with the embedded nut through threads.

Optionally, a customized hole slot is further arranged between the top end of the rear shell of the device and the mounting boss; the end part of the frame plate of the main frame is further provided with an assembling support leg formed by bending; the main frame plate is detachably inserted into the equipment rear shell at the customized angle through the clamping of the assembling support legs and the customized hole grooves.

Optionally, the assembly foot has a screw hole; the customized hole slot is provided with an embedded nut; the main frame plate and the equipment rear shell are further locked in the inserted state through a locking screw penetrating through the screw hole and in threaded connection with the embedded nut.

Optionally, the main frame plate further has an assembly clamping groove and an assembly concave platform on the opposite surfaces of the end part where the assembly supporting leg is formed, and the main frame plate further has a guide notch on the end edge of the end part where the assembly supporting leg is formed; the end part of the auxiliary support plate is provided with an assembly buckle, an assembly reverse buckle and a positioning flange; the positioning flange is inserted into the guide notch in a positioning mode, and the assembling buckle is in alignment clamping connection with the assembling clamping groove; and the assembly inverted buckle and the assembly concave station are mutually embedded along with the alignment clamping of the assembly buckle and the assembly clamping groove, so that the main frame plate and the auxiliary support plate are in butt joint assembly at the assembly angle.

Optionally, the device rear shell further has a limit hole groove formed at a top wall of the mounting boss; the auxiliary support plate is provided with a limiting buckle at the other end edge opposite to the assembling buckle, the assembling reverse buckle and the end edge where the positioning flange is located; when the main frame plate and the auxiliary support plate are assembled in a butt joint mode at a preset assembly angle and the main frame plate is detachably inserted into the equipment rear shell at the customized angle, the auxiliary support plate is clamped with the limiting hole groove through the limiting buckle to keep the equipment rear shell in abutting connection.

Optionally, the equipment back case further has a tamper switch, wherein the main frame is sized such that: when the main frame plate is detachably and fixedly attached to the equipment rear shell, the anti-dismounting switch is positioned outside the mounting window and is extruded by the main frame plate; the auxiliary support plate is sized such that: when the auxiliary support plate abuts against the rear shell of the equipment, the anti-dismounting switch is extruded by the auxiliary support plate.

Optionally, the main frame plate is provided with a wall hanging hole combination compatible with wall mounting boxes of at least two specifications.

Based on the above-mentioned embodiment, a bracket component for equipment fixing includes that the body frame board and the supplementary extension board that support demountable assembly from this, need not electronic equipment and provides integrated structure and embedded space for this bracket component, helps simplifying structure, reduce cost and reduces the occupation to equipment inner space. The main frame plate can be detachably assembled with the equipment rear shell of the electronic equipment, so that wall-mounted installation of the electronic equipment is realized; in addition, the main frame plate and the auxiliary support plate can be detachably assembled with the equipment rear shell of the electronic equipment in cooperation, so that the electronic equipment can be placed and installed on planes in different postures, and multi-posture plane placing and installing of the electronic equipment can be supported.

Drawings

The following drawings are only illustrative and explanatory of the invention and do not limit the scope of the invention:

FIG. 1 is a schematic view of a mounting principle of a bracket assembly for equipment mounting in one embodiment;

FIG. 2 is a schematic structural view of an electronic device with the cradle assembly of FIG. 1 mated thereto;

FIGS. 3a and 3b are schematic structural views of a main frame plate in the carriage assembly of FIG. 1;

FIGS. 4a and 4b are schematic views of the auxiliary support plate in the stent assembly shown in FIG. 1;

FIG. 5 is a schematic view of a first mounting structure of the bracket assembly of FIG. 1 supporting an electronic device mounted in a wall-mounted manner;

FIG. 6 is an exploded view of the first assembled configuration of FIG. 5;

FIGS. 7a and 7b are schematic views illustrating the assembled relationship between the main frame plate and the wall mounting box in the bracket assembly of FIG. 1;

FIG. 8 is a schematic view of the butt-joint assembly of the main frame plate and the auxiliary support plate in the support assembly of FIG. 1;

FIGS. 9a and 9b are schematic exploded views of the docking assembly of the main frame plate and the auxiliary support plate in the bracket assembly of FIG. 1;

FIG. 10 is a cross-sectional view of the engagement of the mating attachment structures of the main frame plate and the auxiliary support plate of the bracket assembly of FIG. 1;

FIG. 11 is a second mounting structure of the bracket assembly of FIG. 1 in a tilt-up support configuration with the electronic device in a flat position;

FIG. 12 is a third assembly configuration of the stand assembly of FIG. 1 supporting a planar triangular-support mounting of an electronic device;

FIG. 13 is an exploded view of the third assembled configuration of FIG. 12;

FIG. 14 is a cross-sectional view of the latch of the third assembly illustrated in FIG. 12;

fig. 15 is a schematic cross-sectional view of the third assembly structure shown in fig. 12.

Description of the reference numerals

10 front shell of equipment

20 rear casing of equipment

21 mounting boss

22 mounting chute

23 groove of the jogging hole

24 custom hole slot

25 limit hole groove

26 lead through groove

27 anti-disassembling switch

30 main frame plate

31 mounting window

31a first window area

31b second window area

32 mounting slide

33 assembling foot

330 screw hole

34 assembling clamping groove

35 Assembly concave table

36 guide notch

37 mounting flange

40 auxiliary support plate

41 assembling buckle

42 assembly reverse buckle

43 positioning flange

44 limit buckle

51 Pre-buried nut

52 locking screw

61 first hanging hole

62 second wall hanging hole

63 multiplexing wall hanging hole

71 first wall mounting box

72 second wall mounting box

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and examples.

FIG. 1 is a schematic view of a mounting principle of a bracket assembly for equipment mounting in one embodiment. Fig. 2 is a schematic structural view of an electronic device adapted with the cradle assembly shown in fig. 1. Fig. 3a and 3b are schematic structural views of a main frame plate in the carriage assembly shown in fig. 1. Fig. 4a and 4b are schematic structural views of an auxiliary support plate in the bracket assembly shown in fig. 1. Referring to fig. 1 in conjunction with fig. 2, 3a and 3b, and 4a and 4b, in this embodiment, a rack assembly for mounting equipment (e.g., electronic equipment including front and rear equipment housings 10 and 20) may include a main rack frame plate 30 and an auxiliary support plate 40.

The main frame plate 30 is detachably assembled to the device rear case 20 of the electronic device when the electronic device is mounted on a wall or a plane.

The auxiliary stay 40 is detachably attached to the main frame plate 30 when the electronic device is mounted in a flat manner.

When the electronic device is mounted in a wall-mounted manner, as shown in a mounted state H0 in fig. 1, the main frame plate 30 may be detachably fixed to and attached to the device rear case 20, and the auxiliary stay 40 may be separated from the main frame plate 30, that is, the auxiliary stay 40 may not be used at this time.

When the electronic device is mounted in a flat manner, the main frame plate 30 and the auxiliary brackets 40 are detachably butt-fitted at a preset fitting angle, so that:

if the main frame plate 30 and the device back case 20 are detachably fixed to each other, as shown in an installation state D1 in fig. 1, the main frame plate 30 forms an inclined support for the electronic device at an installation angle with respect to the auxiliary stay 40, that is, an inclination angle of the electronic device installed in a planar manner depends on the installation angle of the main frame plate 30 and the auxiliary stay 40;

if the main frame plate 30 is detachably inserted into the device rear case 20 at a predetermined customized angle and the auxiliary stay 40 abuts against the device rear case 20 to keep the main frame plate 30 and the device rear case 20 at the customized angle therebetween, as shown in the installation state D2 in fig. 1, the main frame plate 30 and the device rear case 20 form a triangular support for the electronic device at the customized angle, that is, the inclination angle of the electronic device installed in a planar manner can be controlled by the customized angle formed by the main frame plate 30 inserted into the device rear case 20.

Based on the above structure, the bracket assembly for mounting the device includes the main frame plate 30 and the auxiliary support plate 40 supporting the detachable assembly, and thus, the electronic device is not required to provide an integrated structure and an embedded space for the bracket assembly, which helps to simplify the structure, reduce the cost and reduce the occupation of the internal space of the device. The main frame plate 30 can be detachably assembled with the device rear shell 20 of the electronic device, so that wall-mounted installation of the electronic device is realized; moreover, the main frame plate 30 and the auxiliary support plate 40 can be detachably assembled with the device rear case 20 of the electronic device in cooperation, so that the electronic device can be placed and installed on a plane in different postures, and thus, the multi-posture plane placement and installation of the electronic device can be supported.

For a better understanding of the bracket assembly in this embodiment, the demountable assembly structure of the bracket assembly will be described in detail below.

Fig. 5 is a schematic view of a first assembly structure of the bracket assembly shown in fig. 1 supporting an electronic device mounted in a wall-mounted manner. Fig. 6 is an exploded view of the first assembly structure shown in fig. 5. Please refer to fig. 5 and 6, and also refer back to fig. 2, fig. 3a and 3b, and fig. 4a and 4 b:

the device rear case 20 may have a mounting boss 21, and a mounting chute 22 located at a side wall of the mounting boss 21, for example, the mounting chute 21 may be formed at opposite side walls in a width direction of the mounting boss 21;

the main frame plate 30 may have a mounting window 31, and mounting sliders 32 located at side edges of the mounting window 31, for example, the mounting sliders 32 may be disposed at opposite side edges in the width direction of the mounting window 31;

wherein the mounting window 31 may include a first window region 31a that may accommodate the mounting boss 21, for example, a length and width dimension of the first window region 31a may be greater than or equal to a length and width dimension of the mounting boss 21, the mounting window 31 may further include a second window region 31b having the mounting slider 32 disposed at a side edge, for example, the second window region 31b may be in abutting communication with the first window region 31a in a length direction, and a width distance between the mounting sliders 32 disposed at the second window region 31b is smaller than a width and width dimension of the mounting boss 21.

Thus, when the mounting boss 21 enters the mounting window 31 from the first window area 31a and is guided to the second window area 31b by the insertion sliding of the mounting chute 22 and the mounting slide 32, the main frame plate 30 and the device rear case 20 can be fixedly attached by the insertion between the mounting chute 22 and the mounting slide 32.

In this embodiment, the device rear case 20 may further have a tamper switch 27, and the main frame plate 30 may be configured in size such that: when the main frame plate 30 is detachably and fixedly attached to the device rear case 20, the detachment prevention switch 27 is located outside the mounting window 31 and pressed by the main frame plate 30. Wherein, when the squeezing state disappears, the anti-dismantling switch 27 will generate an alarm signal (such as a wireless remote alarm and/or a field buzzing alarm) indicating the risk of illegal dismantling of the electronic device.

The bottom end of the device rear case 20 may further have a fitting hole groove 23, and the end portion of the main frame plate 30 may further have an assembling leg 33 formed by bending, wherein the assembling leg 33 may be caught in the fitting hole groove 23 when the main frame plate 30 is fixedly attached to the device rear case 20. In this embodiment, for example, the fitting hole slots 23 and the assembling legs 33 are aligned in pairs, in this case, one of the assembling legs 33 may have a screw hole 330, and the fitting hole slot 23 aligned with the screw hole may have a nut insert 51, so that the main frame plate 30 and the equipment rear shell 20 may be further locked in a fixed fit state by a locking screw 52 threaded with the nut insert 51 through the screw hole 330, and thus, the detachment prevention protection may be further achieved.

In addition, the wall hanging installation of the electronic equipment can be directly fixed on the building body of the wall, or can be hung on the wall installation box of the wall. For the condition of being hung on the wall mounting box, the main frame plate 30 can be compatible with the wall mounting boxes of different specifications, that is, the main frame plate 30 can be provided with the wall hanging hole combination compatible with the wall mounting boxes of at least two specifications.

Fig. 7a and 7b are schematic views illustrating the assembly relationship between the main frame plate and the wall mounting box in the bracket assembly shown in fig. 1. Referring to fig. 7a and 7b, in this embodiment, taking the case that the main frame panel 30 is disposed with wall hanging holes compatible with the first wall mounting box 71 shown in fig. 7a and the second wall mounting box 72 shown in fig. 7b, specifically, the main frame panel 30 may have first wall hanging holes 61 distributed on the opposite sides and the top side of the mounting window 31, second wall hanging holes located on the top side of the first wall hanging holes 61, and the main frame panel 30 further has a mounting flange 37 protruding on the bottom side of the mounting window 31, the mounting flange 37 having a multiplexing wall hanging hole 63, wherein:

when the electronic device is hung on the first wall mounting box 71 (commonly referred to as "86 mounting box") through the main frame plate 30 of the bracket assembly, as shown in fig. 7a, the hanging installation can be realized by using the first wall hanging hole 61 and the multiplexing wall hanging hole 63 of the main frame plate 30;

when the electronic device is hung on the second wall mounting box 72 (commonly referred to as "gang _ box") through the main frame 30 of the rack assembly, as shown in fig. 7b, the hanging installation can be achieved by using the second wall hanging holes 62 and the multiplexing wall hanging holes 63 of the main frame 30.

In addition, the device rear case 20 may further include a lead through groove 26 penetrating from the bottom end to the mounting boss 21, and when the mounting boss 31 enters the mounting window 31 from the first window area 31a and is guided to the second window area 31b by the plug-in sliding of the mounting chute 22 and the mounting slide 32, the mounting flange 37 may protrude into the lead through groove 26 to play an auxiliary role of guiding the plug-in sliding of the mounting chute 22 and the mounting slide 32.

Fig. 8 is a schematic view of the butt-joint assembly of the main frame plate and the auxiliary support plate in the bracket assembly shown in fig. 1. Fig. 9a and 9b are exploded views of the docking assembly of the main frame plate and the auxiliary support plate in the bracket assembly shown in fig. 1. Fig. 10 is a cross-sectional view of the engagement of the mating attachment structures of the main frame plate and the auxiliary support plate in the bracket assembly of fig. 1. Referring to fig. 8, 9a and 9b and 10, and back to fig. 3a and 3b and 4a and 4b, in this embodiment:

the main frame plate 30 may have an assembly groove 34 and an assembly recessed table 35 on the opposite surfaces of the end portions where the assembly legs 33 are formed, and the main frame plate 30 may have a guide slit 36 on the end edge of the end portion where the assembly legs 33 are formed;

the end of the auxiliary strip 40 may have an assembly catch 41, an assembly barb 42 and a locating flange 43;

the positioning flange 43 is inserted into the guiding notch 36, and the assembling buckle 41 and the assembling clamping groove 34 can be clamped in an aligned mode;

the assembly inverted buckle 42 and the assembly concave 35 can be engaged with each other along with the alignment and engagement of the assembly buckle 41 and the assembly slot 34, so that the main frame plate 30 and the auxiliary stay 40 can be butt-assembled at an assembly angle.

Fig. 11 is a second assembly configuration of the bracket assembly of fig. 1 in a tilt-up support configuration with the electronic device in a flat position. Referring to fig. 11, when the electronic device is mounted in a flat manner, the main frame plate 30 and the auxiliary brackets 40 may be detachably fitted in a butt manner at a predetermined fitting angle in the manner shown in fig. 8, and if the main frame plate 30 may be detachably fixed to the device rear case 20 in the manner shown in fig. 5, the main frame plate 30 forms a tilt support for the electronic device at a fitting angle with respect to the auxiliary brackets 40, that is, a tilt angle of the electronic device mounted in a flat manner, depending on the fitting angle of the main frame plate 30 and the auxiliary brackets 40, as shown in fig. 11.

Fig. 12 is a schematic view of a third assembly structure of the bracket assembly of fig. 1 supporting a planar triangular-support electronic device. Fig. 13 is an exploded view of the third assembly structure shown in fig. 12. Referring to fig. 12 and 13, and referring back to fig. 2, 3a and 3b, and 4a and 4b, the device back case 20 may further have a customized slot 24 between the top end and the mounting boss 21, and the main frame 30 may be detachably inserted into the device back case 20 at a customized angle by engaging the assembly legs 33 with the customized slot 24, that is, the customized slot 24 may determine the customized angle at which the main frame 30 is inserted into the device back case 20, and thus, the bracket assembly in this embodiment may allow a manufacturer of electronic devices to configure the angle of the electronic devices when the electronic devices are horizontally placed by designing the customized slot 24.

Fig. 14 is a cross-sectional view of the latch of the third assembly structure shown in fig. 12. Referring to fig. 14, in this embodiment, the customized hole slots 24 and the assembly legs 33 are aligned in pairs, and one of the assembly legs 33 may have a screw hole 330, and one of the customized hole slots 24 aligned therewith may have a pre-embedded nut 51, so that the main frame plate 30 and the equipment back shell 20 may be further locked in the state of being inserted at the customized angle by the locking screw 52 threaded with the pre-embedded nut 51 through the screw hole 330.

As previously described, in this embodiment, the device back case 20 may further have a tamper switch 27, and accordingly, the auxiliary strip 40 may be sized such that: when the auxiliary stay 40 abuts against the apparatus rear case 20, the tamper switch 27 is pressed by the auxiliary stay 40.

Fig. 15 is a schematic cross-sectional view of the third assembly structure shown in fig. 12. Referring to fig. 15, in this embodiment, the device back case 20 may further have a limit hole groove 25 formed on the top wall of the mounting boss 21, and the auxiliary stay 40 has a limit catch 43 at the other end edge opposite to the end edge where the assembly catch 41, the assembly reverse catch 42, and the positioning flange 43 are located, wherein when the main frame plate 30 and the auxiliary stay 40 are butt-assembled at a preset assembly angle and the main frame plate 30 is detachably attached to the device back case 20 at a customized angle, the auxiliary stay 40 may maintain abutment against the device back case 20 by the engagement of the limit catch 43 with the limit hole groove 25, while achieving stable pressing of the tamper switch 27.

In the above embodiment, both the main frame plate 30 and the auxiliary support plate 40 can be processed by injection molding, and because the main frame plate 30 and the auxiliary support plate 40 have relatively simple structures, the main frame plate 30 and the auxiliary support plate 40 can be molded in the same mold in the same set of mold, which is beneficial to further reducing the cost.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A rack assembly for equipment installation, comprising:

the main frame plate (30) is detachably assembled with the equipment rear shell (20) of the electronic equipment when the electronic equipment is installed in a wall hanging or plane placing mode;

an auxiliary support plate (40) which is detachably assembled with the main frame plate (30) when the electronic equipment is installed in the plane arrangement mode;

wherein:

when the electronic equipment is mounted in a wall-mounted manner, the main frame plate (30) is detachably and fixedly attached to the equipment rear shell (20), and the auxiliary support plate (40) is separated from the main frame plate (30);

when the electronic equipment is installed in the flat-surface mode, the main frame plate (30) and the auxiliary support plate (40) are detachably assembled in a butt joint mode at a preset assembling angle, so that:

if the main frame plate (30) is detachably and fixedly attached to the equipment rear shell (20), the main frame plate (30) forms a tilt support for the electronic equipment at the assembling angle relative to the auxiliary support plate (40);

if the main frame plate (30) is detachably inserted into the equipment rear shell (20) at a preset customized angle, and the auxiliary support plate (40) abuts against the equipment rear shell (20) to enable the main frame plate (30) and the equipment rear shell (20) to keep the customized angle between each other, the main frame plate (30) and the equipment rear shell (20) form a triangular support for the electronic equipment at the customized angle;

and, the equipment rear case (20) has a tamper switch (27);

the dimensions of the mainframe frame plate (30) are configured such that: when the main frame plate (30) is detachably and fixedly attached to the equipment rear shell (20), the anti-dismounting switch (27) is extruded by the main frame plate (30);

the dimensions of the auxiliary strip (40) are configured such that: when the auxiliary stay (40) abuts against the equipment rear case (20), the tamper switch (27) is pressed by the auxiliary stay (40).

2. The bracket assembly for equipment mounting of claim 1,

the equipment rear shell (20) is provided with a mounting boss (21) and a mounting sliding groove (22) positioned on the side wall of the mounting boss (21);

the main frame plate (30) is provided with an installation window (31) and an installation sliding sheet (32) positioned at the side edge of the installation window (31);

wherein the mounting window (31) comprises a first window area (31a) in which the mounting boss (21) can be accommodated, and a second window area (31b) in which the mounting slider (32) is disposed at a side edge;

when the installation boss (21) enters the installation window (31) from the first window area (31a) and is guided to the second window area (31b) through the insertion sliding of the installation sliding chute (22) and the installation sliding sheet (32), the main frame plate (30) is fixedly attached to the equipment rear shell (20) through the insertion between the installation sliding chute (22) and the installation sliding sheet (32).

3. The rack assembly for equipment mounting of claim 2,

the bottom end of the equipment rear shell (20) is further provided with a tabling hole groove (23);

the end part of the main frame plate (30) is further provided with an assembling support leg (33) formed by bending;

when the main frame plate (30) is fixedly attached to the equipment rear shell (20), the assembling support legs (33) are clamped in the embedding hole grooves (23).

4. The rack assembly for equipment mounting of claim 3,

the assembly foot (33) has a screw hole (330);

the embedding hole groove (23) is provided with an embedded nut (51);

the main frame plate (30) and the equipment rear shell (20) are further locked in the fixed and attached state through a locking screw (52) which penetrates through the screw hole (330) and is in threaded connection with the embedded nut (51).

5. The bracket assembly for equipment mounting of claim 2,

the top end of the equipment rear shell (20) and the mounting boss (21) are further provided with a customized hole groove (24);

the end part of the main frame plate (30) is further provided with an assembling support leg (33) formed by bending;

the main frame plate (30) is detachably inserted into the equipment rear shell (20) at the customized angle through the clamping of the assembling support legs (33) and the customized hole grooves (24).

6. The rack assembly for equipment mounting of claim 5,

the assembly foot (33) has a screw hole (330);

the customized hole slot (24) is provided with an embedded nut (51);

the main frame plate (30) and the equipment rear shell (20) are further locked in the inserted state through a locking screw (52) which penetrates through the screw hole (330) and is in threaded connection with the embedded nut (51).

7. The rack assembly for equipment mounting of claim 3 or 5,

the main frame plate (30) is further provided with an assembly clamping groove (34) and an assembly concave platform (35) on the opposite surface of the end part where the assembly support leg (33) is formed, and the main frame plate (30) is further provided with a guide notch (36) on the end edge of the end part where the assembly support leg (33) is formed;

the end part of the auxiliary support plate (40) is provided with an assembling buckle (41), an assembling reverse buckle (42) and a positioning flange (43);

the positioning flange (43) is inserted into the guide notch (36) in a positioning manner, and the assembly buckle (41) is clamped with the assembly clamping groove (34) in an alignment manner; and the assembly reverse buckle (42) and the assembly concave table (35) are mutually embedded along with the alignment clamping of the assembly buckle (41) and the assembly clamping groove (34), so that the main frame plate (30) and the auxiliary support plate (40) are in butt joint assembly at the assembly angle.

8. The rack assembly for equipment mounting of claim 7,

the device rear case (20) further has a stopper hole groove (25) formed at a top wall of the mounting boss (21);

the auxiliary support plate (40) is provided with a limit buckle (44) at the other end edge opposite to the end edges where the assembling buckle (41), the assembling reverse buckle (42) and the positioning flange (43) are arranged;

when the main frame plate (30) and the auxiliary support plate (40) are in butt joint assembly at a preset assembly angle, and the main frame plate (30) is detachably plugged in the equipment rear shell (20) at the customized angle, the auxiliary support plate (40) keeps abutting joint with the equipment rear shell (20) through clamping of the limiting buckle (44) and the limiting hole groove (25).

9. The bracket assembly for equipment mounting of claim 2,

the dimensions of the main frame plate (30) are configured such that: when the main frame plate (30) is detachably and fixedly attached to the equipment rear shell (20), the anti-dismounting switch (27) is positioned outside the mounting window (31).

10. The bracket assembly for equipment installation of claim 1, wherein the main frame plate (30) is deployed with wall hanging hole combinations compatible with at least two specifications of wall mounting boxes.

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