CN117104666A - Instrument board module assembly package - Google Patents

Abstract

The application discloses an instrument board module assembly package, which relates to the technical field of automobile part packaging, and comprises a bottom plate and at least one group of support frame components, wherein the support frame components comprise two support frames which are arranged at intervals for a set distance and are oppositely arranged, the support frames comprise vertical rods, a first cross rod and a second cross rod, and the vertical rods are vertically arranged on the bottom plate; the first horizontal pole and the second horizontal pole are arranged along the vertical direction interval of the vertical pole and are positioned in the same plane with the vertical pole, the middle parts of the first horizontal pole and the second horizontal pole are connected with the vertical pole, and the two ends positioned on two sides of the vertical pole are respectively used for supporting an instrument board module assembly, wherein the second horizontal pole is arranged at the lower part of the supporting instrument board module assembly, and the first horizontal pole is used for supporting the upper part of the instrument board module assembly. Two instrument board module assemblies can be fixed to a set of support frame subassembly, have not only improved instrument board module assembly packing space utilization, and the simple structure of support frame subassembly, the cost is lower.

Description

Instrument board module assembly package

Technical Field

The application relates to the technical field of automobile part packaging, in particular to an instrument board module assembly package.

Background

The instrument board integrated module is formed by assembling parts such as a main wire harness of a vehicle body, a combination instrument, an instrument frame welding assembly, an oil storage kettle assembly, a warm air control mechanism, a winding and unwinding machine, various relays and switches, various air channels of an air conditioning system, a brake oil pipe, an instrument board body assembly and the like into a whole, and has the advantages of large volume, irregular structural shape, non-stackable placement, difficult support, easy deformation, high quality requirement and strict storage mode requirement.

At present, most of containers for outlet package side walls are wooden boxes, and the wooden boxes are large in size, relatively low in strength and high in cost, and products are difficult to effectively fix in a packaging box, so that goods loss occurs in the transportation process of the products. Moreover, the conventional wooden case package can only place 2 instrument assembly parts in a single row, and the horizontal placement cannot be fully overlapped due to special-shaped parts, so that space is wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the application aims to provide an instrument board module assembly package so as to solve the problem that the instrument board module assembly package space utilization rate and the container loading rate in the prior art are low.

In order to achieve the above purpose, the application adopts the following technical scheme:

the application provides an instrument panel module assembly package, comprising:

a bottom plate;

at least a set of support frame subassembly, above-mentioned support frame subassembly includes two intervals and sets for the support frame that distance and set up relatively, and above-mentioned support frame includes:

-a vertical bar vertically set up on said base plate;

-first and second cross bars arranged at intervals along the vertical direction of the vertical bar and in the same plane as the vertical bar, wherein the middle parts of the first and second cross bars are connected with the vertical bar, and the two ends of the vertical bar are respectively used for supporting an instrument panel module assembly, wherein the second cross bar is arranged at the lower part of the instrument panel module assembly, and the first cross bar is used for supporting the upper part of the instrument panel module assembly.

In some alternative embodiments, the support frame further comprises a bottom bar connected to the bottom of the vertical bar and in the same plane as the first cross bar, and the bottom bar is connected to the bottom plate.

In some alternative embodiments, a connecting rod is further disposed between the first cross rod and the bottom rod, and the two connecting rods are respectively disposed on two sides of the vertical rod.

In some alternative embodiments, the first rail, the second rail, and the bottom rail are perpendicular to the vertical rail, and the first rail has a length that is less than a length of the second rail.

In some alternative embodiments, the distances from the two ends of the first cross bar to the vertical bar are equal, and the distances from the two ends of the second cross bar to the vertical bar are equal.

In some alternative embodiments, the supporting frame further includes two triangular reinforcing plates, each of the triangular reinforcing plates is connected between the second cross bar and the bottom bar, and is located at two sides of the vertical bar, and a bottom edge of the triangular reinforcing plate is connected with the bottom plate.

In some alternative embodiments, the support frame further includes a cross connector connected to the intersection of the second cross bar and the vertical bar and partially overlapping the second cross bar and the vertical bar.

In some alternative embodiments, the bottom of the base plate is provided with a plurality of skid bars.

In some alternative embodiments, the device further comprises a box body, which is covered outside the support frame assembly and is connected with the bottom plate.

In some alternative embodiments, the four side walls and the top wall of the case are each provided with a plurality of reinforcing ribs.

Compared with the prior art, the application has the advantages that: the instrument board assembly can be placed on the support frame by arranging the two support frames with set distance at intervals, the instrument board assembly is stably supported by the first cross rod and the second cross rod, and the first cross rod and the second cross rod can be fixed with the instrument board assembly through bolts according to the requirement, so that the instrument board assembly is prevented from falling off the support frame; the middle parts of the first cross rod and the second cross rod are connected with the vertical rods, and the two ends of the two sides of the vertical rods are respectively used for supporting one instrument board module assembly, so that one support frame assembly can be used for placing two instrument board assemblies, and the problem that the packaging space utilization rate of the instrument board module assembly and the loading rate of the container are low is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a floor and support bracket assembly of an instrument panel module assembly package of the present application;

FIG. 2 is a schematic view of the support frame of FIG. 1;

FIG. 3 is a schematic view of the structure of the base plate in FIG. 1;

fig. 4 is a schematic diagram of a case of an instrument panel module assembly package according to the present application.

In the figure: 1. a support frame; 11. a vertical rod; 12. a first cross bar; 13. a second cross bar; 14. a bottom bar; 15. triangular reinforcing plates; 16. a connecting rod; 17. a cross-shaped connecting piece; 2. a bottom plate; 21. sliding wood; 3. a case; 31. a sidewall; 32. a top wall.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Embodiments of the present application are described in further detail below with reference to the accompanying drawings.

As shown in fig. 1, the present application provides a package for an instrument panel module assembly, which includes a base plate 2 and at least one set of support frame components, wherein the support frame components are mounted on the base plate 2, and the instrument panel module assembly is fixed by the support frame components, so that the relative position of the instrument panel module assembly and the base plate 2 can be kept fixed, thereby facilitating transportation.

Specifically, as shown in fig. 2, the support frame assembly includes two support frames 1 disposed opposite to each other at a set distance, the support frames 1 include a vertical rod 11, a first cross rod 12, and a second cross rod 13, and the vertical rod 11 is vertically disposed on the bottom plate 2; the first cross rod 12 and the second cross rod 13 are arranged along the vertical direction of the vertical rod 11 at intervals and are located in the same plane with the vertical rod 11, the middle parts of the first cross rod 12 and the second cross rod 13 are connected with the vertical rod 11, two ends located at two sides of the vertical rod 11 are respectively used for supporting an instrument panel module assembly, the second cross rod 13 is arranged at the lower part of the instrument panel module assembly, and the first cross rod 12 is used for supporting the upper part of the instrument panel module assembly.

It will be understood that the instrument panel module assembly is an assembly of parts such as a vehicle body main harness, a combination meter, a meter frame welding assembly, an oil storage pot assembly, a warm air handling mechanism, a winding and unwinding machine, various relays and switches, various air ducts of an air conditioning system, a brake oil pipe, an instrument panel body assembly and the like into a whole, the instrument panel module assembly has a set length in a vehicle width direction, a set width in a vehicle height direction, and an external profile has a cross section approximately in a "convex" shape in the vehicle width direction, so that it has an accommodation space for accommodating the vehicle body main harness and the like.

Here, the first cross bar 12, the second cross bar 13, and the vertical bar 11 being located in the same plane means that the axes of the first cross bar 12, the second cross bar 13, and the vertical bar 11 are located in the same plane, which is parallel to both sidewalls of the instrument panel module assembly.

In this example, the first cross bar 12 extends into the accommodating space when supporting the upper part of the instrument panel module assembly, so as to be abutted against the inner wall of the instrument panel module assembly; the second cross bar 13 now supports the lower portion of the instrument panel module assembly to cooperate with the first cross bar 12 to secure an instrument panel module assembly to one side of the support bracket assembly. Therefore, a group of support frame components can fix two instrument board module assemblies, so that the packaging space utilization rate of the instrument board module assemblies is improved, and the support frame components are simple in structure and low in cost.

It can be seen that the above-mentioned set distance is the length of the dash module assembly in the vehicle width direction, and the lengths of the first cross bar 12 and the second cross bar 13 are also set according to the depth of the dash module assembly accommodating cavity and the width of the dash module assembly.

Preferably, since the instrument panel module assemblies have a linear shape, when two instrument panel module assemblies are fixed to the same set of the support frame assembly, in order to avoid mutual interference of the two instrument panel module assemblies, the two instrument panel module assemblies are placed on the support frame assembly in opposite directions, that is, one side of one instrument panel module assembly located in the cab corresponds to the position of the other instrument panel module assembly located in the side of the passenger cab on the support frame assembly, and the two instrument panel module assemblies are respectively fixed to both sides of the vertical rod 11.

In some alternative embodiments, to further fix the relative position of the instrument panel module assembly on the support frame 1, the instrument panel module assembly may be fixed on the support frame 1 by connecting the instrument panel module assembly to the first cross bar 12 or the second cross bar 13 through the through holes by self-tapping screws using through holes on the instrument frame welding assembly of the instrument panel module assembly. Of course, in order to prevent the instrument frame welding assembly from being deformed or damaged during fixing, a gasket can be added during fixing of the tapping screw.

Optionally, the first cross bar 12, the second cross bar 13 and the vertical bar 11 are made of timber, so that the screw is convenient to nail while the supporting strength is ensured, the dead weight is reduced, and the cost is reduced.

In some alternative embodiments, the supporting frame 1 further includes a bottom bar 14, the bottom bar 14 is connected to the bottom of the vertical bar 11 and is located on the same plane as the first cross bar 12, and the bottom bar 14 is connected to the bottom plate 2.

It will be appreciated that the bottom bar 14 serves to increase the connection area of the vertical bar 11 to the base plate 2 and to increase the support of the vertical bar 11.

In some alternative embodiments, a connecting rod 16 is further disposed between the first cross rod 12 and the bottom rod 14, and two connecting rods 16 are disposed on two sides of the vertical rod 11.

It will be appreciated that the connecting rod 16 may further enhance the support of the first rail 12, preferably, the connection point of the connecting rod 16 to the first rail 12 may be disposed at the support point of the first rail 12 to the instrument panel module assembly, and the two connecting rods 16 are located in the same plane as the vertical rod 11.

Of course, the number of connecting rods 16 may be increased as required to support the weight of the fixed instrument panel module assembly without limitation.

In some alternative embodiments, the first rail 12, the second rail 13, and the bottom rail 14 are perpendicular to the vertical rail 11, and the length of the first rail 12 is less than the length of the second rail 13.

It will be appreciated that the first rail 12, the second rail 13, the bottom rail 14 and the vertical rail 11 are all located in the same plane, forming a support surface for supporting the instrument panel module assembly. In order to make the first cross bar 12 and the second cross bar 13 more stable in bearing, the balance of the bearing is ensured, so that the first cross bar 12 and the second cross bar are perpendicular to the vertical bars, and thus the horizontal state is maintained. Because of the shape and structure of the instrument panel module assembly in this example, the length of the first rail 12 is set smaller than the length of the second rail 13, wherein the first rail 12 is configured to hang in the receiving cavity in the upper portion of the instrument panel module assembly and the second rail 13 is configured to support the lower edge of the instrument panel frame in the lower portion of the instrument panel module assembly.

In other embodiments, the lengths of the first rail 12 and the second rail 13 may be specifically set according to different types of instrument panel module assemblies.

In some alternative embodiments, the two ends of the first cross bar 12 are equidistant from the vertical bar 11, and the two ends of the second cross bar 13 are equidistant from the vertical bar 11.

It will be appreciated that the two ends of the first cross bar 12 and the second cross bar 13 located at two sides of the vertical bar 11 are respectively used for supporting an instrument panel module assembly, so that the middle points of the first cross bar 12 and the second cross bar 13 are connected with the vertical bar 11 in order to ensure the stability of the supporting of the two ends and the balance during supporting.

In some alternative embodiments, the supporting frame 1 further includes two triangular reinforcing plates 15, each triangular reinforcing plate 15 is connected between the first cross bar 12 and the bottom bar 14, and is located on two sides of the vertical bar 11, and a bottom edge of the triangular reinforcing plate 15 is connected to the bottom plate 2.

The triangular reinforcing plate 15 is used for supporting the first cross bar 12 and the second cross bar 13 so as to prevent the problem of toppling during supporting and fixing the instrument panel module assembly. In this example, the two right-angle sides of the triangular reinforcing plate 15 are respectively connected with the bottom plate 2 and the connecting rod 16, which not only further reinforces the supportability of the connecting rod 16, but also improves the connection stability of the triangular reinforcing plate 15.

In some alternative embodiments, the supporting frame 1 further includes a cross connecting member 17 connected to the intersection of the first cross bar 12 and the vertical bar 11 and partially overlapping the first cross bar 12 and the vertical bar 11.

Since in this example, the first cross bar 12, the vertical bar 11, the second cross bar 13, etc. are made of wood materials, in order to enhance the bearing capacity of the second cross bar 13 and the vertical bar 11, a cross connecting piece 17 is disposed at the connection between the second cross bar 13 and the vertical bar 11. Preferably, the cross-shaped connector 17 is made of a metal material to improve strength.

In this example, the cross connection 17 comprises a transverse support plate connected to the second cross bar 13 and a vertical support plate connected to the vertical bar 11. Both ends of the transverse supporting plate extend to the triangular reinforcing plate 15 all the way to be matched with the triangular reinforcing plate 15 to form an integral reinforcing structure, and further guarantee is provided for supporting the second cross rod 13. The transverse supporting plate is connected with the second cross rod 13 through self-tapping screws, and the vertical supporting plate is connected with the vertical rod 11 through self-tapping screws.

In some alternative embodiments, as shown in fig. 3, the bottom of the base plate 2 is provided with a plurality of skid bars 21.

It will be appreciated that multiple sets of support bracket assemblies may be provided on the floor 2, each set of support bracket assemblies being capable of securing two instrument panel module assemblies, such that a corresponding number of sets of support bracket assemblies may be arranged by increasing or decreasing the area of the floor 2. However, it should be noted that a certain distance needs to be spaced between two adjacent support frame assemblies to ensure that a safe distance is reserved between two instrument panel module assemblies on two adjacent support frame assemblies after the instrument panel module assemblies are fixed on the support frame assemblies, so that the safety in the transportation process can be ensured. In this example, two sets of support frame assemblies are arranged on one base plate 2, and two support frames 1 of each set of support frame assemblies are all attached to the base plate 2 by steel nails.

Because the forklift is used in the transportation, in order to facilitate the forklift to be inserted below the bottom plate 2 to transport the instrument panel module assembly package, the bottom plate 2 has a certain buffering capacity in the placing process, and a plurality of skids 21 are arranged at the bottom of the bottom plate 2.

As shown in fig. 3, the skid 21 is elongated to fit the length/width of the base plate 2, and a plurality of skid 21 are spaced apart. In this example, the skid 21 is a wood board, and the skid 21 is provided with four and spaced apart set distances. Taking the present embodiment as an example, when the size of the base plate 2 is 1900mm×2200mm, the skid 21 is arranged in the width direction and is spaced 780mm apart in the length direction.

In some alternative embodiments, as shown in fig. 4, the instrument panel module assembly package further includes a case 3, where the case 3 is covered outside the support frame assembly and is connected to the base plate 2.

It will be appreciated that it is also desirable to protect the dashboard module assembly from damage after it is secured to the support bracket assembly, and thus provide the case 3. The box body 3 is of a cubic structure with one surface being open, and the opening surface is matched with the size of the bottom plate 2. Five rectangular plates can be assembled conventionally, and then the box body 3 is connected with the bottom plate 2 to form a cuboid complete box body.

In this example, the case 3 is made of plywood, which not only has enough structural strength, but also has lighter weight, and is suitable for transportation.

Of course, the size of the case 3 may be specifically designed according to the size of the instrument panel module assembly and the internal height of the container in transport, and in this example, the height of the case 3 is 800mm, and the top wall 32 and the bottom plate 2 are 2200mm×1900mm.

Preferably, the box 3 comprises a box frame and a box plate, wherein the box frame is made of wood materials, and the box plate is made of plywood.

In some alternative embodiments, the four side walls 31 and the top wall 32 of the case 3 are provided with a plurality of ribs.

Since it may be necessary to pack a plurality of instrument panel module assemblies in a stacked state during transportation, the case 3 needs to have sufficient structural strength. In this example, reinforcing ribs are provided on each side of the case 3 to improve the supportability of the case 3.

As shown in the figure, four side walls 31 of the box 3, that is, four faces perpendicular to the bottom plate 2, are provided with a plurality of vertical reinforcing ribs perpendicular to the bottom plate 2, and two ends of each vertical reinforcing rib are connected with the box frame for improving the vertical supporting force of the box. The vertical reinforcing ribs and the top angle parts of the box body frame are also provided with oblique reinforcing ribs, and form a triangular stable structure with the box body frame and the vertical reinforcing ribs for improving the stability of the box body frame. The top wall 32 of the box 3, i.e. the side parallel to the bottom plate 2, is provided with top ribs corresponding to the position of the skid 21.

In this example, through the structure of the box body 3, three instrument board module assembly packing boxes can be stacked together, so that the space of the container can be fully utilized, the volume rate of the container is improved, and the packing and transporting cost is reduced.

The working principle of the embodiment of the application is as follows: at least one group of support frame assemblies are fixed on the bottom plate 2 through bolts, then two instrument board module assemblies are placed on one group of support frame assemblies, the lower part of the instrument board module assemblies is placed on the second cross rod 13, two ends of an instrument frame welding assembly of the instrument board module assemblies are used as supporting points and placed on the first cross rod 12, and the two instrument board module assemblies located on one group of support frame assemblies are placed in opposite directions, so that interference is avoided, and space is saved. And then the instrument panel module assembly is fixed on the support frame 1 by utilizing a through hole on the instrument frame welding assembly of the instrument panel module assembly and connecting the instrument panel module assembly with the first cross rod 12 or the second cross rod 13 through the through hole by self-tapping screws. After the fixing of the instrument panel module assembly is completed, the box body 3 is covered outside and connected with the bottom plate 2, and then the packaging of the instrument panel module assembly is completed.

According to the instrument board module assembly package, the support frame assemblies are fixed on the bottom plate 2, so that a group of support frame assemblies can fix two instrument board module assemblies, the package space utilization rate of the instrument board module assembly is improved, and the support frame assemblies are simple in structure and low in cost; the support of the first cross bar 12 can be further enhanced by providing a connecting bar 16; the first cross rod 12, the second cross rod 13, the bottom rod 14 and the vertical rod 11 are all positioned in the same plane to form a bearing surface for bearing the instrument panel module assembly; the middle points of the first cross rod 12 and the second cross rod 13 are connected with the vertical rod 11, so that the stability of bearing at two ends and the balance during bearing are ensured; the triangular reinforcing plate 15 is arranged to support the first cross bar 12 and the second cross bar 13 so as to prevent the problem of toppling when the instrument panel module assembly is supported and fixed; the cross connecting piece 17 is arranged to strengthen the bearing capacity of the second cross bar 13 and the vertical bar 11; the bottom of the bottom plate 2 is provided with a plurality of skid bars 21, so that a forklift can be conveniently inserted below the bottom plate 2 to transport the instrument board module assembly package, and meanwhile, the bottom plate 2 has a certain buffer capacity in the placing process; by arranging the box body 3, the instrument board module assembly is protected from being damaged, and the upper space of the container can be utilized by stacking; the reinforcing ribs are arranged between the frames of the box body 3, so that the structural stability and the bearing capacity of the box body 3 can be improved.

In the description of the present application, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present application and simplifying the description, and are not indicative or implying that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present application. Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

It should be noted that in the present application, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is only a specific embodiment of the application to enable those skilled in the art to understand or practice the application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An instrument panel module assembly package, comprising:

a bottom plate (2);

at least a set of support frame subassembly, support frame subassembly includes two intervals and sets for support frame (1) that distance and set up relatively, support frame (1) includes:

-a vertical bar (11) vertically set up on the bottom plate (2);

-first horizontal pole (12) and second horizontal pole (13), along the vertical direction interval setting of montant (11), and with montant (11) are located the coplanar, the middle part of first horizontal pole (12) and second horizontal pole (13) with montant (11) are connected, and are located both ends of montant (11) both sides are used for bearing a instrument board module assembly respectively, wherein, second horizontal pole (13) are in the lower part of bearing instrument board module assembly, first horizontal pole (12) are used for bearing the upper portion of instrument board module assembly.

2. The instrument panel module assembly package according to claim 1, wherein the support frame (1) further comprises a bottom bar (14) connected to the bottom of the vertical bar (11) and in the same plane as the first cross bar (12), the bottom bar (14) being connected to the bottom panel (2).

3. The instrument panel module assembly package according to claim 2, wherein a connecting rod (16) is further arranged between the first cross rod (12) and the bottom rod (14), and two connecting rods (16) are respectively arranged at two sides of the vertical rod (11).

4. The instrument panel module assembly package of claim 2, wherein the first cross bar (12), the second cross bar (13) and the bottom bar (14) are all perpendicular to the vertical bar (11), and the length of the first cross bar (12) is less than the length of the second cross bar (13).

5. The instrument panel module assembly package of claim 1, wherein the first cross bar (12) is equidistant from both ends of the first cross bar to the vertical bar (11) and the second cross bar (13) is equidistant from both ends of the second cross bar to the vertical bar (11).

6. The instrument panel module assembly package according to claim 2, wherein the support frame (1) further comprises two triangular reinforcing plates (15), each triangular reinforcing plate (15) is connected between the second cross bar (13) and the bottom bar (14) and is respectively located at two sides of the vertical bar (11), and the bottom edge of the triangular reinforcing plate (15) is connected with the bottom plate (2).

7. The instrument panel module assembly package according to claim 1, wherein the support frame (1) further comprises a cross connector (17) connected to the intersection of the second cross bar (13) and the vertical bar (11) and partially overlapping the second cross bar (13) and the vertical bar (11).

8. The dashboard module assembly package according to claim 1, wherein the bottom of the base plate (2) is provided with a plurality of skid (21).

9. The instrument panel module assembly package of claim 1, further comprising a case (3) that is housed outside the support frame assembly and is connected to the floor (2).

10. The dashboard module assembly package according to claim 9, wherein the four side walls (31) and the top wall (32) of the box (3) are each provided with a plurality of reinforcing ribs.