CN214057202U - Platform bracket assembly - Google Patents

Abstract

The utility model discloses a platform bracket assembly, which comprises a bottom plate, a back plate, an inclined strut, a fixed seat plate and a supporting plate; the bottom of the back plate is arranged on the top of the bottom plate, and the bottom plate and the back plate are of hollow structures; one end of each inclined strut is arranged on the bottom plate, the other end of each inclined strut is arranged on the back plate, the inclined struts are multiple, a screw hole is formed in the bottom plate between every two adjacent inclined struts, a storage space is formed between every two adjacent inclined struts, and the storage space is used for placing a pump or an oil tank; the supporting plate is arranged on the back plate, and a screw hole is formed in the supporting plate; the fixed seat board is arranged on one side, opposite to the inclined strut, of the back board, and the fixed seat board is provided with a screw hole. Above-mentioned technical scheme utilizes the bracing to cut apart into a plurality of storing spaces with platform bracket assembly, and drive component can be placed to these storing spaces. The bottom plate and the back plate are provided with the hollow structures, and the hollow structures not only reduce the weight of the platform bracket assembly, but also facilitate heat dissipation.

Description

Platform bracket assembly

Technical Field

The utility model relates to a motor vehicle equipment field especially relates to a platform bracket assembly.

Background

In large-scale motor vehicles (such as mine trucks and cranes), the mine trucks are generally used for road construction or mining, and are large in size and high in horsepower. The lack of a carrier assembly adapted to the pump, the oil tank, the motor or other drive components makes it impossible to place these drive components in the appropriate positions, so that the number of drive components that can be installed is limited, the heat dissipation of the drive components is poor and the output power of the drive components is influenced in steps.

SUMMERY OF THE UTILITY MODEL

Therefore, it is desirable to provide a platform carriage assembly that solves the problem of a carriage assembly to which the drive member is not adapted.

To achieve the above objective, the present embodiment provides a platform bracket assembly, which includes a bottom plate, a back plate, an inclined strut, a fixed seat plate, and a supporting plate;

the bottom of the back plate is arranged on the top of the bottom plate, and the bottom plate and the back plate are formed by splicing a plurality of rods;

one end of each inclined strut is arranged on the bottom plate, the other end of each inclined strut is arranged on the back plate, the inclined struts are multiple, a screw hole is formed in the bottom plate between every two adjacent inclined struts, a storage space is formed among the two adjacent inclined struts, the back plate and the bottom plate, and the storage space is used for placing a pump or an oil tank;

the supporting plate is arranged on the back plate, and a screw hole is formed in the supporting plate;

the fixed seat board is arranged on one side, opposite to the inclined strut, of the back board, and the fixed seat board is provided with a screw hole.

Further, the bottom plate comprises a plurality of bottom plate cross rods and a plurality of bottom plate longitudinal rods;

a plurality of bottom plate vertical poles are arranged side by side and at intervals, at least one bottom plate transverse rod is arranged on the side wall of each two adjacent bottom plate vertical poles, and a plurality of bottom plate transverse rods are arranged at intervals.

Further, the base plate further comprises a plurality of tank longitudinal bars and a plurality of tank cross bars;

at least one gas tank longitudinal rod is arranged on the side walls of two adjacent bottom plate cross rods, and the gas tank cross rods are connected with the side walls of the gas tank longitudinal rods or the side walls of the bottom plate longitudinal rods.

Furthermore, the number of the longitudinal rods of the bottom plate is three, and four bottom plate cross rods are arranged between every two adjacent longitudinal rods of the bottom plate.

Further, the backboard comprises a plurality of backboard crossbars and a plurality of uprights;

a plurality of pole settings are just the interval setting side by side, the bottom setting of pole setting is in on bottom plate horizontal pole or the bottom plate vertical pole, be provided with the backplate horizontal pole on the lateral wall of two adjacent pole settings, a plurality of bottom plate horizontal poles are the interval setting.

Furthermore, the number of the upright posts is three, and the number of the back plate cross rods is four;

two back plate cross rods are arranged on the side walls of the two adjacent vertical rods.

Further, the device also comprises a reinforcing rib;

the reinforcing rib is located the junction of bottom plate and backplate, the one end of reinforcing rib is connected the backplate, the other end of reinforcing rib is connected the bottom plate.

Further, the supporting plate is arranged on the back plate cross rod; or:

the fixed seat board is arranged on the vertical rod.

Further, the device also comprises a pulling plate;

the side wall of the pulling plate is respectively connected with the bottom plate, the back plate and the inclined strut, and the pulling plate is of a hollow structure.

Further, the length of each storage space is different, and the length of each storage space is parallel to the direction of the bottom plate.

Be different from prior art, above-mentioned technical scheme utilizes the bracing to cut apart into a plurality of storing spaces with platform bracket assembly, and driving part such as pump, oil tank or motor can be placed respectively to these storing spaces, and the screw on the bottom plate, the screw on the backplate and the screw on the layer board can fix above-mentioned driving part well. The bottom plate and the back plate are provided with hollow structures, and the hollow structures are used for reducing the weight of the platform bracket assembly and also used for heat dissipation of driving parts such as a pump, an oil tank or a motor.

Drawings

Fig. 1 is a schematic structural diagram of a platform bracket assembly according to the present embodiment.

Description of reference numerals:

1. a base plate;

11. a floor rail; 12. a bottom plate longitudinal bar; 13. a gas tank crossbar; 14. a gas tank vertical rod;

2. a back plate;

21. a back panel cross bar; 22. erecting a rod;

3. bracing;

4. pulling a plate;

5. reinforcing ribs;

6. fixing the seat plate;

7. and (7) a supporting plate.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1, the present embodiment provides a platform bracket assembly for placing driving components such as a pump, an oil tank or a motor. The platform bracket assembly comprises a bottom plate 1, a back plate 2, an inclined strut 3, a fixed seat plate 6 and a supporting plate 7. The bottom plate 1 with backplate 2 all is that a plurality of poles splice forms, bottom plate 1 with backplate 2 is hollow out construction, and the structure of fretwork is used for alleviateing the weight of platform bracket assembly, and the structure of fretwork still is used for driver part's heat dissipation. The bottom of backplate 2 sets up on the top of bottom plate 1, the one end of bracing 3 sets up on bottom plate 1, the other end of bracing 3 sets up on backplate 2. The diagonal brace 3 effectively increases the rigidity of the structure and increases the shock resistance of the structure. The inclined struts 3 are multiple, and an area for placing driving components such as a pump, an oil tank or a motor is formed between every two adjacent inclined struts 3. Screw holes are formed in the bottom plate 1 between every two adjacent inclined struts 3, and the screw holes in the bottom plate 1 are used for fixing driving components such as a pump, an oil tank or a motor. The supporting plate 7 is arranged on the back plate 2, screw holes are formed in the supporting plate 7, and the screw holes in the supporting plate 7 are used for fixing driving components such as a pump, an oil tank or a motor. The fixing seat plate 6 is arranged on one side, opposite to the inclined strut 3, of the back plate 2, the fixing seat plate 6 is provided with a screw hole, and the screw hole in the fixing seat plate 6 is used for fixing the platform bracket assembly on frames of large motor vehicles such as mine trucks.

Among the above-mentioned technical scheme, utilize the bracing to cut apart into a plurality of storing spaces with platform bracket assembly, driving part such as pump, oil tank or motor can be placed respectively to these storing spaces, and the screw on the bottom plate, the screw on the backplate and the screw on the layer board can fix above-mentioned driving part well. The bottom plate and the back plate are provided with hollow structures, and the hollow structures are used for reducing the weight of the platform bracket assembly and also used for heat dissipation of driving parts such as a pump, an oil tank or a motor.

In the present embodiment, the floor panel 1 includes a plurality of floor cross bars 11 and a plurality of floor side bars 12. The gap between the base plate cross rod 11 and the base plate longitudinal rod 12 forms a hollow structure. A plurality of bottom plate vertical poles 12 are side by side and the interval sets up, and two at least bottom plate horizontal poles 11 set up on two adjacent bottom plate vertical pole 12's lateral wall, the top of bottom plate vertical pole 12 perhaps be provided with on the top of bottom plate horizontal pole 11 the bracing.

In a preferred embodiment, the bottom plate cross bars 11 are perpendicular to the bottom plate longitudinal bars 12, that is, the bottom plate cross bars 11 are arranged transversely, the bottom plate longitudinal bars 12 are arranged longitudinally, and a "mouth" shaped gap is formed between the bottom plate cross bars 11 and the bottom plate longitudinal bars 12. The structure is convenient for welding, riveting or bolt connection between the transverse rods of the bottom plate and the longitudinal rods 12 of the bottom plate, and simultaneously, the appearance is neat and regular.

In some embodiments, the bottom plate cross bar 11 may be obliquely disposed between two bottom plate vertical bars 12, and a gap having a shape of diamond, triangle, pentagon, trapezoid, etc. is formed between the bottom plate cross bar 11 and the bottom plate vertical bars 12.

In the present embodiment, since the driving parts have different sizes, the length of each storage space is set to be different in order to allow the driving parts to be received in the platform bracket assembly. The length of each storage space is determined according to the cross bar of the bottom plate, and the length of each storage space is in the direction of arrangement along the storage space. The length of the bottom plate cross bar in the storage space on the right side is greater than that of the bottom plate cross bar in the storage space on the left side, so that larger components can be placed in the storage space on the right side.

In this embodiment, although the overlong floor rail provides a larger space, the bearing capacity of the overlong floor rail is reduced, and in order to avoid the risk of breaking the overlong floor rail, the floor further includes a tank longitudinal rod 14 and a tank transverse rod 13. The gas tank longitudinal rods 14 are arranged on the side walls of two adjacent bottom plate cross rods, at least one gas tank longitudinal rod is arranged on the side walls of the two adjacent bottom plate cross rods, and the gas tank cross rods 13 are connected with the side walls of the gas tank longitudinal rods 14 or the side walls of the bottom plate longitudinal rods. The length of the gas tank vertical rod 14 is smaller than that of the bottom plate vertical rod, and the length of the gas tank cross rod 13 is smaller than that of the bottom plate cross rod. The gas tank longitudinal rod 14 and the gas tank cross rod 13 reinforce the bottom plate cross rod at the local part of the bottom plate cross rod, and the middle part of the bottom plate cross rod is prevented from being broken due to the fact that the middle part bears large weight for a long time.

In this embodiment, the backboard 2 comprises a plurality of backboard crossbars 21 and a plurality of uprights 22. A plurality of upright posts 22 are arranged side by side and at intervals, and the bottom of one upright post 22 is arranged on one longitudinal floor rod or one transverse bottom rod. For example, the bottom of the upright 22 is perpendicular to the top of the base plate side rail. At least two backboard crossbars 21 are arranged on the side walls of two adjacent vertical rods 22, and a plurality of backboard crossbars are arranged at intervals. The gap between the back plate cross rod 21 and the upright rod 22 forms a hollow structure. The back board cross bar 21 can be perpendicular to the vertical rod 22, and the back board cross bar 21 can also be oblique to the vertical rod 22.

In the same storage space, the length of the backboard cross bar 21 is the same as that of the bottom board cross bar 11. To relieve the weight on the backpan rail 21, stiffening ribs 5 are included. The reinforcing ribs 5 are positioned at the joint of the bottom plate and the back plate, and the reinforcing ribs 5 are respectively arranged on the back plate cross rod 21 and the bottom plate cross rod. For example, one end of the reinforcing rib 5 is connected to the lowest cross bar 21 on the backboard, the other end of the reinforcing rib 5 is connected to the cross bar 21 on the bottom board closest to the backboard, and the reinforcing rib 5 enhances the stability of the connection between the bottom board and the backboard without making the platform bracket assembly too heavy when the carrying capacity of the platform bracket assembly is improved.

Referring to fig. 1, the number of the longitudinal rods 12 of the bottom plate is three, the number of the vertical rods 22 is three, and the number of the pull plates 4 is three. A pole setting 22 and arm-tie 4 set up on a bottom plate vertical pole, and three arm-tie 4 divide into two storing space with platform bracket assembly, and the left storing space can be used for placing the oil tank, and the storing space on right side can be used for placing the pump.

In other embodiments, the number of the longitudinal rods of the bottom plate is four, the number of the vertical rods is four, and the number of the pull plates is four. The platform bracket assembly is divided into three storage spaces by the four pull plates, and the pump, the oil tank and the motor are respectively placed in one of the storage spaces. Of course, the number of the longitudinal rods of the bottom plate, the number of the vertical rods and the number of the pulling plates can also be five, six, seven or even more, and thus, the detailed description is omitted.

In this embodiment, a pulling plate 4 is also included. The side wall of the pulling plate 4 is respectively connected with the bottom plate, the back plate and the inclined strut, and the pulling plate 4 is of a hollow structure. The hollow structure of the pulling plate 4 can be as follows: the pulling plate is provided with a plurality of holes, and the cross section of the holes can be in the shape of a circle, an ellipse, a rectangle, a triangle, a pentagon, a rhombus and the like.

In this embodiment, the supporting plate is disposed on the cross bar of the backboard, and the screw holes on the supporting plate are connected to driving components such as a pump and an oil tank through bolts to realize the fixing function. The fixed seat board is arranged on the upright stanchion, can be in a convex shape and can be better sleeved on a frame of a motor vehicle (such as a mine car and a crane). The screw hole of the fixed seat plate is connected to a frame of a motor vehicle (such as a mine car and a crane) through a bolt. The bottom plate cross rod and the bottom plate longitudinal rod are also provided with screw holes, and the screw holes on the bottom plate cross rod and the bottom plate longitudinal rod are connected with the driving parts from the bottom direction of the driving parts through bolts.

It should be noted that the floor cross bars, the floor vertical bars, the floor cross bars and/or the vertical bars are angle steels.

The length of each storage space is different, and the length of each storage space is parallel to the direction of the bottom plate. Therefore, the driving parts with different sizes can be placed in the storage spaces with different lengths.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the protection scope of the present invention.

Claims (10)

1. A platform bracket assembly is characterized by comprising a bottom plate, a back plate, an inclined strut, a fixed seat plate and a supporting plate;

the bottom of the back plate is arranged on the top of the bottom plate, and the bottom plate and the back plate are formed by splicing a plurality of rods;

one end of each inclined strut is arranged on the bottom plate, the other end of each inclined strut is arranged on the back plate, the inclined struts are multiple, a screw hole is formed in the bottom plate between every two adjacent inclined struts, a storage space is formed among the two adjacent inclined struts, the back plate and the bottom plate, and the storage space is used for placing a pump or an oil tank;

the supporting plate is arranged on the back plate, and a screw hole is formed in the supporting plate;

the fixed seat board is arranged on one side, opposite to the inclined strut, of the back board, and the fixed seat board is provided with a screw hole.

2. The platform carrier assembly of claim 1, wherein the base includes a plurality of base cross bars and a plurality of base side rails;

a plurality of bottom plate vertical poles are arranged side by side and at intervals, at least one bottom plate transverse rod is arranged on the side wall of each two adjacent bottom plate vertical poles, and a plurality of bottom plate transverse rods are arranged at intervals.

3. The platform carrier assembly of claim 2, wherein the base further comprises a plurality of tank vertical rods and a plurality of tank horizontal rods;

at least one gas tank longitudinal rod is arranged on the side walls of two adjacent bottom plate cross rods, and the gas tank cross rods are connected with the side walls of the gas tank longitudinal rods or the side walls of the bottom plate longitudinal rods.

4. The platform carrier assembly of claim 3, wherein there are three deck side rails and four deck cross rails are disposed between two adjacent deck side rails.

5. The platform carrier assembly of claim 2, wherein the back plate includes a plurality of back plate cross bars and a plurality of uprights;

a plurality of pole settings are just the interval setting side by side, the bottom setting of pole setting is in on bottom plate horizontal pole or the bottom plate vertical pole, be provided with the backplate horizontal pole on the lateral wall of two adjacent pole settings, a plurality of bottom plate horizontal poles are the interval setting.

6. The platform carrier assembly of claim 5, wherein the number of uprights is three and the number of backing rails is four;

two back plate cross rods are arranged on the side walls of the two adjacent vertical rods.

7. A platform bracket assembly according to any of claims 1 to 6, further comprising a reinforcing bar;

the reinforcing rib is located the junction of bottom plate and backplate, the one end of reinforcing rib is connected the backplate, the other end of reinforcing rib is connected the bottom plate.

8. The platform carrier assembly of claim 5, wherein the pallet is disposed on the backing rail; or:

the fixed seat board is arranged on the vertical rod.

9. The platform carrier assembly according to claim 1, further comprising a pull plate;

the side wall of the pulling plate is respectively connected with the bottom plate, the back plate and the inclined strut, and the pulling plate is of a hollow structure.

10. The platform bracket assembly of claim 1, wherein the length of each storage space is different, and the length of the storage space is parallel to the direction of the base plate.

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