CN218341963U - Partition mounting structure of module and rack - Google Patents

Abstract

The utility model provides a subregion mounting structure of module and frame, include: the rack comprises a rack body, and an installation crossbeam and a separation beam which are arranged in a space enclosed by the rack body, wherein the rack body is separated into a module installation area and an accessory area by the separation beam, and the installation crossbeam is positioned below the separation beam and is arranged in a staggered manner; the module mounting blocks are arranged in pairs in multiple groups and detachably mounted on the top of the rack, and one part of the module mounting blocks is positioned on the rack body and the other part of the module mounting blocks is positioned on the separation beam; and a plurality of functional modules which are arranged on the mounting cross beam and are positioned in the module mounting area. The utility model discloses optimize the overall arrangement and the locate mode of functional module in the frame, do benefit to each functional module and annex and carry out the subregion installation to according to the module installation piece that different functional module set up to correspond, make each functional module can make things convenient for fast through module installation piece and frame assembly or dismantlement, connect reliably, the inside functional module of protection box.

Description

Partition mounting structure of module and rack

Technical Field

The utility model belongs to the technical field of the oil detects, especially relate to a subregion mounting structure of module and frame.

Background

In order to be suitable for the conditions of field operation (such as oil analysis of outfield gas stations, oil depots, vehicles, ships and the like), carrying and carrying are convenient, a portable chemical inspection box is often adopted to rapidly detect oil, fuel and the like, various detection instruments are often required to be placed in the chemical inspection box for detecting and inspecting the oil, and relevant data are obtained to be beneficial to judging the characteristics of the oil.

Although there are also racks designed in the box for holding various instruments, many racks are integrally formed with a base plate, and mounting surfaces of the modules are disposed on the base plate so that the modules can be mounted and positioned. But its bottom plate processing cost is high, and whole weight can't reduce, and simultaneously, the frame is whole installation inside the box with each module, because module installation face is close to the bottom half in the box, leads to the installation of module or dismantles extremely inconvenient for the dismouting is consuming time, influences work efficiency. In addition, when each instrument is installed in the rack, the layout is disordered, and the installation areas of other accessories are not considered, so that the overall layout is disordered, and an operator needs to additionally find the corresponding detection accessories, so that the working efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the utility model aims to provide a subregion mounting structure of module and frame for instrument module and the inconvenient and mixed and disorderly problem of instrument module overall arrangement of frame dismouting in the box among the solution prior art.

To achieve the above and other related objects, the present invention provides a partition mounting structure for a module and a rack, including:

the rack comprises a rack body, and an installation crossbeam and a partition beam which are arranged in a space enclosed by the rack body, wherein the rack body is divided into a module installation area and an accessory area by the partition beam, and the installation crossbeam is positioned below the partition beam and is arranged in a staggered manner;

the module mounting blocks are arranged in pairs in multiple groups and detachably mounted at the top of the rack, one part of the module mounting blocks are positioned on the rack body, and the other part of the module mounting blocks are positioned on the separation beam; and

the functional modules are arranged in a plurality and are arranged on the mounting cross beam and positioned in the module mounting area; the front side and the rear side of the functional module are connected with the module installation blocks through lap joint structures, the left side and the right side of the functional module are transversely positioned with the module installation blocks through positioning structures, and the bottom of the functional module is vertically positioned with the installation beam through an inclined plane structure.

Optionally, the functional modules are arranged side by side in the horizontal direction and in a single layer in the vertical direction.

Optionally, one or both sides of the module mounting block are provided with a guide portion for mounting and guiding the functional module, and the guide portion has a guide inclined surface facing the functional module.

Optionally, the lap joint structure includes a lug seat arranged on the functional module and a module mounting hole arranged on the module mounting block, the lug seat is provided with a lug seat mounting hole corresponding to the module mounting hole, and the lug seat mounting hole is connected with the module mounting hole in a matching manner.

Optionally, the positioning structure includes a positioning rib group disposed on the functional module and a positioning portion disposed on the module mounting block, the positioning portion is located on a side of the module mounting block, and the positioning rib group on the same side is clamped between the positioning portions of the two module mounting blocks.

Optionally, the inclined plane structure includes an inclined plane groove disposed on the functional module and an inclined plane block disposed on the mounting beam, and the inclined plane groove is clamped with the inclined plane block in a matching manner.

Optionally, the top, the bottom and the peripheral side walls of the rack body are provided with hollow parts.

Optionally, the rack body includes an upper frame, a lower frame, and columns connected between four corners of the upper frame and the lower frame, the columns are respectively connected to the upper frame and the lower frame, the mounting beam is detachably connected to the lower frame, and the partition beam is detachably connected to the upper frame.

Optionally, the cross sections of the upper frame and the lower frame are of a C-shaped structure, and the cross sections of the upright posts are of an L-shaped structure.

Optionally, the frame is made of aluminum alloy materials by bending and welding, and three-proofing paint is sprayed on the surface of the frame.

As described above, the utility model discloses a subregion mounting structure of module and frame has following beneficial effect:

through with frame body subregion, and utilize module installation piece to the front and back both sides of function module, left and right sides and bottom each position fix a position, the overall arrangement and the locate mode of function module in the frame have been optimized, can do benefit to each function module and annex and carry out the subregion installation, and can set up the module installation piece that corresponds according to different function modules, make each function module can conveniently pass through module installation piece and frame assembly or dismantlement fast, make easy dismounting, connect reliably, protect the inside function module of box.

Drawings

Fig. 1 is a schematic view of a frame structure according to an embodiment of the present invention;

fig. 2 is a schematic view of an assembly structure of the functional module and the frame according to an embodiment of the present invention.

Description of reference numerals

10-a frame; 11-a rack body; 111-an upper frame; 112-a lower frame; 113-upright post; 12-mounting a cross beam; 121-a bevel block; 13-separation beam; a-a module mounting area; b-an attachment zone;

20-a module mounting block; 21-a guide; 22-module mounting holes; 23-a positioning section;

30-a functional module; 31-an ear mount; 311-ear mount mounting holes; 32-positioning rib group; 33-bevel groove.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are used for clarity of description only, and are not used to limit the scope of the present invention, and the relative relationship between the terms may be changed or adjusted without substantial technical changes.

Please refer to fig. 1 to 2, the present invention provides a partition mounting structure of a module and a frame, including: the multifunctional rack comprises a rack 10, a module mounting block 20 and a functional module 30, wherein the rack 10 comprises a rack body 11, and a mounting beam 12 and a partition beam 13 which are arranged in a space enclosed by the rack body 11, the rack body 11 is divided into a module mounting area A and an accessory area B by the partition beam 13, and the mounting beam 12 is positioned below the partition beam 13 and is arranged in a staggered manner; the module mounting blocks 20 are arranged in pairs in multiple groups and detachably mounted on the top of the rack 10, and a part of the module mounting blocks 20 are located on the rack body 11, and the other part of the module mounting blocks 20 are located on the partition beam 13; the functional modules 30 are arranged in a plurality, are mounted on the mounting cross beam 12 and are located in the module mounting area a; the front side and the rear side of the functional module 30 are connected with the module mounting blocks 20 through lap joint structures, the left side and the right side of the functional module 30 are transversely positioned with the module mounting blocks 20 through positioning structures, and the bottom of the functional module 30 is vertically positioned with the mounting beam 12 through an inclined plane structure.

Specifically, the functional modules 30 may be various instruments and devices for detection, an inner cavity is formed inside the box body, the rack 10 is disposed in the inner cavity, the rack 10 is used to mount the functional modules 30 in the box body, and the rack 10 and the inner cavity of the box body can be fixed in various ways. For example, the shock absorption components with better self shock absorption performance such as a shock absorber or a spring can be arranged between the rack 10 and the inner cavity of the box body to play roles of connection and shock absorption between the rack 10 and the box body, so that the requirements on environmental adaptability such as impact resistance, vibration resistance and falling resistance can be met in the transportation process.

In order to simplify the structure of the rack 10 and reduce the weight of the rack 10, the rack 10 is provided with a mounting beam 12 at the bottom, and the mounting beam 12 plays a role of supporting the functional module 30. A plurality of functional modules 30 may be mounted on the rack 10, and the embodiment takes 3 functional modules 30 as an example. The rack 10 is used as a mounting platform, and all the functional modules 30 can be quickly and conveniently dismounted from the rack 10 by simplifying the positioning and mounting modes of the functional modules 30 and the rack 10, so that the working efficiency and the maintenance convenience are improved.

In order to make the layout of each functional module 30 in the rack 10 more reasonable and provide a corresponding placement area for each accessory, the rack 10 is partitioned into a module installation area a and an accessory area B by a partition beam 13, the module installation area a is larger than the accessory area B, the module installation area a is located on one side of the accessory area B, the module installation area a is used for placing each functional module 30, the installation beam 12 is located in the module installation area a, and the installation beam 12 can be arranged in the middle of the module installation area a; the accessory area B is used for placing various accessories (e.g., connecting lines, test kits, service tools, etc.). Therefore, the functional modules 30 and the accessories can be reasonably arranged and are clear at a glance, and the working efficiency of an operator is improved.

In order to facilitate quick installation and disassembly of the functional module 30 and the rack 10, the rack 10 and the functional module 30 are installed in a positioning manner in order to ensure reliable connection and improve operation convenience. In order to be suitable for installation of different functional modules 30, a plurality of sets of module installation blocks 20 can be arranged on the top of the rack 10 for installation and limiting between the functional modules 30 and the rack 10. Moreover, the installation surface is arranged on the module installation, on one hand, the installation plane of the frame 10 can be improved, and the convenience of assembly and disassembly of operators is improved; on the other hand, the module mounting block 20 can be adapted to different sizes of the functional modules 30 by replacing the module mounting block 20 of a different shape or adjusting the arrangement position of the module mounting block 20. During the concrete implementation, when needs install functional module 30 in frame 10, need install multiunit module installation piece 20 at frame 10 top according to each functional module 30's overall arrangement, and carry out horizontal location through the location structure between module installation piece 20 and the functional module 30 left and right sides, carry out vertical location through the inclined plane structure between module installation piece 20 and the functional module 30 bottom, be connected and lock through the overlap joint structure between module installation piece 20 and the functional module 30 front and back both sides, operating personnel only need accomplish the installation locking of module installation piece 20 upper surface and functional module 30 front and back both sides, can realize the installation of functional module 30 and frame 10 fast. Similarly, when the module mounting block is detached, the operation personnel only need to complete the detachment and separation of the front side and the rear side of the module mounting block 20 and the functional module 30, and the functional module 30 and the rack 10 can be rapidly detached because other positions play a role in auxiliary positioning through the positioning structure and the inclined plane structure.

The functional modules 30 are arranged side by side in the horizontal direction and in a single layer in the vertical direction. Such an arrangement structure can facilitate the operation, disassembly, and maintenance of each functional module 30 by an operator. In this embodiment, three functional modules 30 may be disposed on the rack 10, and the three functional modules 30 are disposed side by side in the horizontal direction and disposed in a single layer in the vertical direction.

In addition, two adjacent functional modules 30 may share one module mounting block 20. Thus, the number of module mounting blocks 20 arranged can be reduced, and the manufacturing cost can be reduced.

In some embodiments, one or both sides of the module mounting block 20 are provided with a guide portion 21 for mounting and guiding the functional module 30, and the guide portion 21 has a guide slope facing the functional module 30. Specifically, for the common module mounting block 20, the guide portions 21 are provided on both sides of the module mounting block 20; for the individual module mounting block 20, a guide 21 is provided on the side facing the functional module 30. In this way, smooth installation of the functional module 30 when assembled with the module mounting block 20 can be facilitated, and a guiding function is achieved through the guide slope.

In some embodiments, the functional module 30 is secured to the chassis 10 by a snap-fit arrangement. The overlap joint structure including set up in the last lug seat 31 of functional module 30 and set up in module mounting hole 22 on the module installation piece 20, set up the lug seat mounting hole 311 that corresponds the setting with module mounting hole 22 on the lug seat 31, lug seat mounting hole 311 is connected with module mounting hole 22 cooperation. Specifically, the front and rear sides of each functional module 30 are provided with the lug seats 31, and the two lug seats 31 are symmetrically arranged, so that the lug seats 31 are lapped on the upper surface of the module mounting block 20 to keep the balance of the functional module 30. Reinforcing ribs are arranged between the lug seats 31 and the side walls of the functional module 30 to enhance the connection strength. The lug seat 31 is close to the top of the functional module 30, the lug seat mounting holes 311 can be set to corresponding number according to actual requirements, in this embodiment, the lug seat mounting holes 311 on each lug seat 31 are set to 2, and are symmetrically arranged on the lug seat 31 along the length direction thereof. Accordingly, the module mounting holes 22 are correspondingly formed in the upper surfaces of the module mounting blocks 20, and each of the module mounting blocks 20 has 1 module mounting hole 22, or, for a common module mounting block 20, each of the module mounting blocks 20 has 2 module mounting holes 22, so as to be correspondingly connected to the function module 30, and lock the function module 30 and the module mounting block 20 by a locking member such as a bolt. In the present embodiment, each functional module 30 corresponds to 4 module mounting holes 22.

In some embodiments, the positioning structure includes a set of positioning ribs 32 disposed on the functional module 30 and a positioning portion 23 disposed on the module mounting block 20, the positioning portion 23 is located at a side of the module mounting block 20, and the set of positioning ribs 32 on the same side is clamped between the positioning portions 23 of the two module mounting blocks 20. Specifically, the front side and the rear side of each functional module 30 are provided with a positioning rib group 32, and the positioning rib groups 32 are W-shaped structures and extend from the bottom of the lug seat 31. Accordingly, the module mounting blocks 20 are provided with positioning portions 23 corresponding to the front and rear sides of each functional module 30, that is, the front and rear positioning rib groups 32 of each functional module 30 are respectively positioned in cooperation with the positioning portions 23 of one group of module mounting blocks 20. Moreover, the bottom of the positioning rib group 32 is in two V-shapes, which has guiding function, so that when the functional module 30 is installed downwards, the smoothness of the clamping between the positioning rib group 32 and the positioning portion 23 of the module installation block 20 is improved, so that the positioning rib group 32 can be smoothly clamped between the two positioning portions 23, and the front side and the rear side of the functional module 30 can be quickly clamped and positioned with the module installation block 20.

In some embodiments, the ramp structure includes a ramp slot 33 disposed on the functional module 30 and a ramp block 121 disposed on the mounting beam 12, and the ramp slot 33 is engaged with the ramp block 121. Specifically, the rough positioning between the bottom of the functional module 30 and the mounting beam 12 can be quickly realized through the inclined plane structure, so that the complexity of the bottom mounting operation is also avoided. In this embodiment, the bottom of each functional module 30 is provided with 2 inclined plane grooves 33, and the 2 inclined plane grooves 33 are symmetrically disposed near the edges of the functional module 30 and located in the middle of the functional module 30. Correspondingly, corresponding to each functional module 30, 2 inclined plane blocks 121 are arranged on the mounting beam 12, inclined planes of the two inclined plane blocks 121 are oppositely arranged, and when the functional module is mounted, the inclined plane grooves 33 of the functional module 30 are matched and clamped with the corresponding inclined plane blocks 121.

It can be understood that the top, the bottom and the peripheral side wall of the rack body 11 have hollowed-out portions. In this way, the weight of the entire rack 10 can be reduced, and the transportation weight of the entire apparatus can be reduced as much as possible.

In some embodiments, the rack 10 is adapted to an inner cavity of a box, the rack body 11 includes an upper frame 111, a lower frame 112, and a column 113 connected between four corners of the upper frame 111 and the lower frame 112, the column 113 is respectively connected to the upper frame 111 and the lower frame 112, the mounting beam 12 is detachably connected to the lower frame 112, and the separation beam 13 is detachably connected to the upper frame 111. Specifically, the whole frame 10 adopts a frame type structure, the upper frame 111, the lower frame 112 and the upright posts 113 are all bent by sheet metal, and the bent gaps are welded after bending. Also, the functional modules 30 are supported by the mounting beams 12, and the respective functional modules 30 are mounted on the mounting beams 12, the mounting beams 12 being provided on the lower frame 112 at the center of the lower frame 112. The partition position of the partition beam 13 can be adjusted according to actual conditions, and the position of the installation beam 12 can be correspondingly adjusted. The module mounting blocks 20 are partially provided on the upper frame 111 and partially provided on the partition beams 13, and are distributed according to the arrangement positions of the respective function modules 30.

The cross sections of the upper frame 111 and the lower frame 112 are C-shaped structures, and the cross section of the upright 113 is an L-shaped structure. Specifically, the upper frame 111 and the lower frame 112 are both rectangular structures, and a reinforcing rib may be further disposed between the upper frame 111 and the lower frame 112 to enhance the supporting strength of the upright 113.

In addition, the frame 10 is made of aluminum alloy materials by bending and welding, and three-proofing paint is sprayed on the surface of the frame. With the structure, the aluminum alloy can ensure the light weight of the frame 10; the surface is sprayed with the three-proofing paint, so that the paint has good environmental corrosion resistance.

To sum up, in the embodiment of the utility model provides an among the subregion mounting structure of module and frame, through with frame body 11 subregion, and utilize module installation piece 20 to function module 30 front and back both sides, each position of left and right sides and bottom is fixed a position, the overall arrangement and the locate mode of function module 30 in frame 10 have been optimized, can do benefit to each function module 30 and annex and carry out the subregion installation, and can set up corresponding module installation piece 20 according to different function module 30, make each function module 30 can conveniently assemble or dismantle with frame 10 through module installation piece 20 fast, make easy dismounting, connect reliably, protect the inside function module 30 of box.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not intended to limit the present invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A partition mounting structure of a module and a frame, comprising:

the rack comprises a rack body, and an installation crossbeam and a partition beam which are arranged in a space enclosed by the rack body, wherein the rack body is divided into a module installation area and an accessory area by the partition beam, and the installation crossbeam is positioned below the partition beam and is arranged in a staggered manner;

the module mounting blocks are arranged in pairs in multiple groups and detachably mounted at the top of the rack, one part of the module mounting blocks are positioned on the rack body, and the other part of the module mounting blocks are positioned on the separation beam; and

the functional modules are arranged in a plurality and are arranged on the mounting cross beam and positioned in the module mounting area; the utility model discloses a horizontal location of function module, including the function module, the function module is connected through the overlap joint structure between both sides and the module installation piece around the function module, carry out horizontal location through location structure between the left and right sides of function module and the module installation piece, carry out vertical location through the inclined plane structure between the bottom of function module and the installation crossbeam.

2. A modular and rack partition mounting arrangement according to claim 1, wherein: the functional modules are arranged side by side in the horizontal direction and are arranged in a single layer in the vertical direction.

3. A modular and rack partition mounting arrangement according to claim 1, wherein: one side or two sides of the module mounting block are provided with guide parts for mounting and guiding the functional module, and guide inclined planes facing the functional module are arranged on the guide parts.

4. A modular and rack partition mounting arrangement according to claim 1, wherein: the overlap joint structure including set up in the last lug seat of functional module and set up in module mounting hole on the module installation piece, set up the lug seat mounting hole that corresponds the setting with the module mounting hole on the lug seat, the lug seat mounting hole is connected with the module mounting hole cooperation.

5. A modular and rack partition mounting arrangement according to claim 1, wherein: the positioning structure comprises a positioning convex edge group arranged on the functional module and a positioning part arranged on the module mounting block, the positioning part is positioned on the side edge of the module mounting block, and the positioning convex edge group on the same side is clamped between the two positioning parts of the module mounting block.

6. A modular and rack partition mounting arrangement according to claim 1, wherein: the inclined plane structure including set up in last inclined plane groove of functional module and set up in the inclined plane piece on the installation crossbeam, the inclined plane groove with inclined plane piece cooperation joint.

7. A modular and rack zoned mounting arrangement according to claim 1, wherein: the top, the bottom and the peripheral side wall of the frame body are provided with hollow parts.

8. A modular and rack partition mounting arrangement according to claim 1, wherein: the rack body comprises an upper frame, a lower frame and stand columns connected between four corners of the upper frame and the lower frame, the stand columns are respectively connected with the upper frame and the lower frame, the mounting cross beam is detachably connected to the lower frame, and the separation beam is detachably connected to the upper frame.

9. A modular and rack partition mounting arrangement according to claim 8, wherein: the cross sections of the upper frame and the lower frame are of C-shaped structures, and the cross sections of the stand columns are of L-shaped structures.

10. A module and rack partition mounting arrangement according to any one of claims 1 to 9, wherein: the frame adopts the aluminum alloy material to bend the welding and makes, and its surface spraying has three proofings lacquer.

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