CN213676543U - Equipment rack overturning structure applied to vehicle - Google Patents

Abstract

The utility model is suitable for the technical field of vehicle-mounted equipment, and provides an equipment rack overturning structure applied to vehicles, the equipment rack assembly comprises an equipment rack and two equipment rack mounting plates, the two equipment rack mounting plates are symmetrically distributed along the horizontal direction, the equipment rack is accommodated between the two equipment rack mounting plates, the bottoms of the two equipment rack mounting plates are hinged with the equipment rack through a pin shaft, the side walls of the two equipment rack mounting plates and the equipment rack are both welded with a gas strut mounting plate assembly, and a gas strut is fixedly connected between the gas strut mounting plate assemblies correspondingly arranged, the device has reasonable structure, convenient use and low cost, is downwards overturned to be matched with a binding belt for use when in use, is folded when not in use, saves space, has stable structure, large bearing capacity, saves space, and can adjust the appearance size according to different spaces, has certain universality and popularization value.

Description

Equipment rack overturning structure applied to vehicle

Technical Field

The utility model belongs to the technical field of on-vehicle equipment, especially, relate to an equipment rack flip structure in being applied to vehicle.

Background

The equipment rack is used as a storage rack for placing equipment and plays an important role in various special vehicles.

On one hand, the device needs to be reasonably arranged according to a specific space, fixed at a proper position, bear a certain weight of equipment and play a role in fixing the equipment; on the other hand, it needs to satisfy on-vehicle state service condition, and self needs certain intensity, guarantees the stability of self structure under the poor condition of road conditions.

The equipment frame among the prior art is simple in structure, is installed on the side wall of the vehicle body through self-tapping or bolts, cannot be used in a driving state or is small in load bearing capacity influenced by a dynamic load in a vehicle-mounted state, is easy to deform under the condition of large load bearing, has installation stress and distortion deformation, and is poor in reliability and shock absorption performance and influences the use of the equipment frame.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be applied to equipment rack upset structure in vehicle aims at overcoming prior art's shortcoming, provides a rational in infrastructure, convenient to use, can prevent distortion, reinforcing structural strength's equipment rack that can overturn.

The utility model discloses a realize like this, a be applied to equipment rack flip structure in the vehicle, including the equipment rack subassembly.

The equipment rack assembly comprises an equipment rack and two equipment rack mounting plates, wherein the two equipment rack mounting plates are symmetrically distributed along the horizontal direction, the equipment rack is accommodated between the two equipment rack mounting plates, the bottoms of the two equipment rack mounting plates are hinged with the equipment rack through pin shafts, gas strut mounting plate assemblies are welded on the side walls of the two equipment rack mounting plates and the equipment rack, and gas struts are fixedly connected between the gas strut mounting plate assemblies in a corresponding mode.

Preferably, the gas strut mounting plate assembly comprises a first mounting plate and a second mounting plate, the first mounting plate is vertically arranged below the equipment rack mounting plate, the bottom of the first mounting plate is welded to the bottom of the equipment rack mounting plate, the top of the first mounting plate is provided with a bending part of the equipment rack mounting plate, the bending part inclines towards the equipment rack, and a first mounting hole is formed in the bending part; the second mounting panel install in the bottom of equipment rack, and its surface has seted up the second mounting hole, the gas vaulting pole includes cylinder body and output, cylinder body and the first mounting hole fixed connection that corresponds, output and the second mounting hole threaded connection that corresponds.

Preferably, the second mounting plates are fixedly connected with the center of the side wall of the equipment rack.

Preferably, the equipment rack mounting plate with the equal fixedly connected with round pin axle reinforcing plate in junction of equipment rack, all set up the confession on the round pin axle reinforcing plate the round pin axle runs through and the aperture is greater than the via hole of round pin axle diameter.

Preferably, the equipment rack is rectangular in cross section.

Preferably, a plurality of through holes are formed in the upper surface of the equipment rack at intervals and equal intervals.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a be applied to equipment rack flip structure in vehicle, the both ends symmetry of equipment rack is provided with the equipment rack mounting panel with automobile body lateral wall fixed connection, the welding has the gas vaulting pole mounting panel that is used for installing the gas vaulting pole on the equipment rack mounting panel, round pin hub connection equipment rack and equipment rack mounting panel, realize the equipment rack upset through the round pin axle, and simultaneously, this device is rational in infrastructure, high durability and convenient use, low cost, downward upset cooperation ribbon uses when using, not the time spent pack up and save space, stable in structure, the bearing capacity is big, save space, can be according to different space adjustment overall dimension, certain commonality has, and the spreading value has.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a top view of the present invention;

in the figure: 1-equipment rack mounting plate, 2-gas strut mounting plate component, 3-gas strut, 4-first mounting plate, 5-second mounting plate, 6-pin shaft, 7-pin shaft reinforcing plate and 8-equipment rack.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it is to be understood that the specific embodiments described herein are only used for explaining the present invention, and are not used for limiting the present invention.

Referring to fig. 1-3, the present invention provides an equipment rack turning structure for use in a vehicle, including an equipment rack assembly.

The equipment rack assembly comprises an equipment rack 8 and two equipment rack mounting plates 1, the two equipment rack mounting plates 1 are symmetrically distributed along the horizontal direction, the equipment rack 8 is held between the two equipment rack mounting plates 1, the bottoms of the two equipment rack mounting plates 1 are hinged to the equipment rack 8 through a pin shaft 6, gas strut mounting plate assemblies 2 are welded on the side walls of the two equipment rack mounting plates 1 and the equipment rack 8, and gas struts 3 are fixedly connected between the corresponding gas strut mounting plate assemblies 2.

In the embodiment, two equipment rack mounting plates 1 are vertically and symmetrically arranged on two sides of an equipment rack 8, and one ends of the two equipment rack mounting plates 1 are respectively hinged with two side walls of the equipment rack 8 through pin shafts 6, so that the equipment rack 8 can rotate between the two equipment rack mounting plates 1 through the pin shafts 6, and the other ends of the two equipment rack mounting plates are fixedly connected with the side wall of a vehicle body through bolts, thereby ensuring the stability of the whole structure of the device, greatly improving the practicability of the device; on the other hand, in a driving state, the gas stay rods 3 play a certain role in shock absorption, so that the collision of the equipment rack 8 caused by road bumping is avoided, further the damage to the equipment rack 8 and equipment placed on the equipment rack is caused, the shock absorption of the equipment rack 8 is improved, and the stability of the equipment rack 8 is improved by additionally arranging the gas stay rods 3 on two sides; moreover, the gas strut 3 is spacing the free upset of equipment rack 8 when equipment rack 8 upwards is packed up, and the stability of equipment rack 8 when guaranteeing not to use equipment rack 8, in the in-service use, because this equipment rack is multi-functional, can confirm the mounted position as required to the rational utilization space makes things convenient for fixed equipment.

Referring to fig. 1-3, further, the gas strut mounting plate assembly 2 includes a first mounting plate 4 and a second mounting plate 5, the first mounting plate 4 is vertically arranged below the equipment rack mounting plate 1, the bottom of the first mounting plate is welded to the bottom of the equipment rack mounting plate 1, the top of the first mounting plate has a bend of the equipment rack mounting plate 1 inclining towards the equipment rack 8, and a first mounting hole is formed in the bend; the second mounting plate 5 is installed in the bottom of the equipment frame 8, a second mounting hole is formed in the surface of the equipment frame, the air supporting rod 3 comprises a cylinder body and an output end, the cylinder body is fixedly connected with the corresponding first mounting hole, and the output end is in threaded connection with the corresponding second mounting hole.

In the embodiment, the two gas strut mounting plate assemblies 2 are composed of a first mounting plate 4 and a second mounting plate 5, the first mounting plate 4 is vertically arranged below the equipment rack mounting plate 1, one end of the first mounting plate close to the equipment rack mounting plate 1 is welded on the bottom of the equipment rack mounting plate 1, one end of the first mounting plate far away from the equipment rack mounting plate 1 is provided with a bend towards the equipment rack direction, a first mounting hole for mounting a gas strut 3 cylinder body is arranged in the bend, the two second mounting plates 5 are symmetrically welded on the bottom of the side edge of the equipment rack 8 and are provided with second mounting holes for mounting the output end of the gas strut 3, one end of the gas strut 3 cylinder body far away from the output end is connected with a round-head nut through a screw rod at the end part and then is fixed in the first mounting hole, the output end of the gas strut 3 is fixed in the second mounting hole through threaded connection, and the position of the gas strut mounting plate assembly 2, make gas vaulting pole 3 on the one hand to assist spacing and bearing support to the decurrent rotation angle of equipment rack 8, on the other hand is under the driving state, and gas vaulting pole 3 plays certain cushioning effect, has improved the shock attenuation nature of equipment rack 8, through installing gas vaulting pole 3 additional to the assurance has improved the stability of equipment rack 8, makes things convenient for staff's normal use, further improvement the practicality of this device.

Referring to fig. 2, further, the second mounting plates 5 are fixedly connected to the center of the side wall of the equipment rack 8.

In this embodiment, the effect that two second mounting panels 5 all set up the lateral wall middle part position at equipment rack 8 lies in can be convenient for gas vaulting pole 3 to drive the lift of equipment rack 8, simultaneously, also made things convenient for gas vaulting pole 3 spacing and support to equipment rack 8, and then, also restricted the horizontal hunting of equipment rack 8, improved equipment rack 8's bearing and stability once more, when equipment rack 8 expandes, can stably fix the display device of placing on equipment rack 8.

Referring to fig. 1-3, further, a pin reinforcing plate 7 is fixedly connected to a joint of the equipment rack mounting plate 1 and the equipment rack 8, and through holes for the pin 6 to pass through and having a diameter larger than the diameter of the pin 6 are formed in the pin reinforcing plate 7.

In this embodiment, round pin axle reinforcing plate 7 makes and keeps keeping in the level or personally submitting certain positive angle with the level after the equipment rack 8 overturns, (the angular range is 0 ~ 15 degree), round pin axle reinforcing plate 7 is the progressive structure that obtains through calculating, round pin axle reinforcing plate 7 is one end big one little, the progressive face of round pin axle reinforcing plate just supports the bottom of two equipment rack mounting panels 1 after the equipment rack 8 rotates, has restricted equipment rack 8 to continue the upset, round pin axle reinforcing plate 7's function lies in: be used for strengthening the round pin axle on the one hand, on the other hand is used for the upset stroke of spacing equipment rack, and round pin axle reinforcing plate 7 plays the additional strengthening to the installation of round pin axle 6 on the one hand, and on the other hand has carried on spacingly to 8 flip angle of equipment rack, guarantees that put equipment can not the downward sloping to play the supporting role to equipment rack 8, have the function of backup pad, the bearing capacity is great.

Referring to fig. 1-3, further, the equipment rack 8 is rectangular in cross-section.

In this embodiment, the equipment rack 8 is a rectangular plate, and aims to achieve good support and place more equipment in a limited area, thereby facilitating daily use of workers.

Referring to fig. 3, further, a plurality of through holes are formed on the upper surface of the equipment rack 8 at intervals and equal intervals.

In the embodiment, the equipment frame 8 is a rectangular plate, a plurality of through holes for installing equipment brackets or ribbon rings are arranged on the surface of the rectangular plate at intervals and equal intervals, so that the equipment is conveniently fixed, the equipment frame 8 is turned downwards to be matched with the ribbon rings fixed at four corners of the equipment frame 8 for use when in use, the ribbon rings are fixed by riveting or self-tapping, the position of the band ring can be adjusted according to the fixed equipment, the position of the band ring is consistent with that of the equipment, the band is divided into two sections, one section of the binding belt is provided with a tightener, the length of the binding belt can be adjusted according to the size of the equipment, the binding belt can be bound forwards and backwards, and can also be bound in a crossed way to fix the equipment, in addition, the equipment rack 8 is provided with a punched display board, a plurality of standard or non-standard supports are fixed on the square holes, the display equipment is fixed through small supports, and small ribbons such as nylon ribbons can be used for bundling the equipment through holes on the display board.

The utility model discloses a theory of operation and use flow: after the utility model is installed, when the equipment frame 8 is in a folded state and needs to be unfolded for use, an outward stretching force is applied to the equipment frame 8, namely the equipment frame 8 is pulled outwards from the upper side, the equipment frame 8 is turned over through the pin shaft 6, then under the dual force action of the self gravity of the equipment frame 8 and the air supporting rod 3, the equipment frame 8 continuously turns downwards until the pin shaft reinforcing plates 7 welded at the bottoms of the two sides of the equipment frame 8 are supported by the two equipment frame mounting plates 1, which is equal to the limit of the turning over of the equipment frame 8 by the pin shaft reinforcing plates 7, so that the equipment frame 8 can not continuously turn downwards, the equipment frame 8 is kept at the horizontal level or forms a certain positive angle with the horizontal level, meanwhile, the air supporting rod 3 which is reasonably arranged at the mounting position carries out auxiliary stretching limit and bearing support on the downward turning angle of the equipment frame 8 (the air supporting rod stroke is in place, the air supporting rod can not continuously stretch, and can not continuously stretch under the influence of the self weight of the, the air stay bar 3 also limits the left-right swing of the equipment rack 8, the bearing and the stability of the equipment rack 8 are improved again, and when the equipment rack 8 is unfolded, the display equipment can be placed through the equipment rack 8 which is fixedly unfolded.

When the equipment frame 8 needs to be folded in the unfolding state, exert ascending power to equipment frame 8, be about to draw up in the outside of equipment frame 8, equipment frame 8 realizes the upset through round pin axle 6, later equipment frame 8 is automatic upset under the effect of the 3 tensile forces of gas vaulting pole, pack up until equipment frame 8 completely, 3 shrink strokes of gas vaulting pole are to minimum stroke (zero), when equipment frame 8 packs up the state, through-hole fixed equipment on the equipment frame 8 can be passed through, play the effect of show link plate, if want to expand equipment frame 8 once more, need exert outside tensile power to equipment frame 8 once more.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides an equipment frame flip structure for in vehicle which characterized in that: comprises an equipment rack assembly;

the equipment rack assembly comprises an equipment rack (8) and two equipment rack mounting plates (1), wherein the equipment rack mounting plates (1) are symmetrically distributed along the horizontal direction, the equipment rack (8) is contained between the two equipment rack mounting plates (1), the bottoms of the equipment rack mounting plates (1) are hinged to the equipment rack (8) through a pin shaft (6), the equipment rack mounting plates (1) and the side walls of the equipment rack (8) are welded with gas strut mounting plate assemblies (2), and gas strut mounting plate assemblies (3) are fixedly connected between the gas strut mounting plate assemblies (2) in a corresponding mode.

2. The equipment rack overturning structure applied to the inside of the vehicle according to claim 1, wherein: the gas strut mounting plate assembly (2) comprises a first mounting plate (4) and a second mounting plate (5), the first mounting plate (4) is vertically arranged below the equipment rack mounting plate (1), the bottom of the first mounting plate is welded to the bottom of the equipment rack mounting plate (1), the top of the first mounting plate is provided with a bend, which enables the equipment rack mounting plate (1) to incline towards the equipment rack (8), and a first mounting hole is formed in the bend; the second mounting plate (5) is mounted at the bottom of the equipment rack (8), a second mounting hole is formed in the surface of the second mounting plate, the air supporting rod (3) comprises a cylinder body and an output end, the cylinder body is fixedly connected with the corresponding first mounting hole, and the output end is in threaded connection with the corresponding second mounting hole.

3. The equipment rack overturning structure applied to the inside of the vehicle according to claim 2, wherein: the second mounting plates (5) are fixedly connected with the center of the side wall of the equipment rack (8).

4. The equipment rack overturning structure applied to the inside of the vehicle according to claim 1, wherein: the equipment frame comprises an equipment frame mounting plate (1) and a pin shaft reinforcing plate (7) fixedly connected to the joint of the equipment frame (8), wherein the pin shaft reinforcing plate (7) is provided with a through hole for the pin shaft (6) to penetrate through and the diameter of the pin shaft (6) is larger than the diameter of the pin shaft (6).

5. The equipment rack overturning structure applied to the inside of the vehicle according to claim 1, wherein: the cross section of the equipment frame (8) is rectangular.

6. The equipment rack overturning structure applied to the inside of the vehicle according to claim 5, wherein: a plurality of through holes are formed in the upper surface of the equipment frame (8) at intervals and at equal intervals.

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