CN220375180U - Damping support frame - Google Patents

Abstract

The utility model discloses a damping support frame which comprises two bases, an energy-absorbing plate and an objective table which are oppositely arranged, wherein the energy-absorbing plate is arranged between the two bases and can deform along the direction perpendicular to the plate surface of the energy-absorbing plate. The two ends of the objective table are respectively arranged on the base and can move along the direction vertical to the surface of the energy absorption plate, the objective table extends out of the supporting part, and the supporting part is connected with the energy absorption plate. The objective table is placed on the base, and the objective table can move along the direction vertical to the surface of the energy absorption plate, and meanwhile, the supporting part is connected with the energy absorption plate. In actual use, the device to be secured is mounted on the stage. When the equipment is vibrated by external force, the objective table slides relative to the base so as to force the supporting part to drive the energy-absorbing plate to deform, so that the kinetic energy of the equipment is consumed through the deformation of the energy-absorbing plate, and the equipment is prevented from being knocked and damaged.

Description

Damping support frame

Technical Field

The utility model relates to the field of anti-collision facilities, in particular to a damping support frame.

Background

In the process of carrying and using the electric or mechanical equipment, the electric or mechanical equipment needs to be supported and fixed by a supporting frame.

The existing support frame can be seen in the patent with the application number of CN202210914710.X, and electrical or mechanical equipment is erected at a certain height through the support frame, so that an operator can conveniently overhaul, carry and the like. However, the electrical or mechanical devices on the support frame may be impacted by some external force, and the impact may cause the electrical or mechanical devices to be damaged by collision.

Therefore, how to buffer the equipment subjected to impact is a technical problem to be solved.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a damping support frame which solves the technical problem of how to buffer equipment subjected to impact in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model comprises a damping support frame, which comprises:

two bases which are oppositely arranged;

the energy absorbing plate is erected between the two bases and can deform along the direction perpendicular to the plate surface;

and the two ends of the objective table are respectively arranged on the base and can move along the direction vertical to the surface of the energy absorption plate, the objective table extends out of the supporting part, and the supporting part is connected with the energy absorption plate.

Preferably, the energy absorbing plates are multiple, and the energy absorbing plates are arranged in an array.

Preferably, the supporting portion is provided with a plurality of supporting openings corresponding to the energy absorbing plates one by one, and the energy absorbing plates penetrate through the supporting openings.

Preferably, the base is provided with an inserting port, and the end head of the energy absorbing plate is arranged on the inserting port in a penetrating mode.

Preferably, the energy absorbing plate end is provided with a blocking part, and the blocking part prevents the energy absorbing plate from completely penetrating through the plug-in port.

Preferably, the energy-absorbing plate is far away from one end of the blocking portion and is provided with a limiting opening, the damping support frame further comprises a limiting pin, and the limiting pin penetrates through the limiting opening so as to limit the energy-absorbing plate to move relative to the base through the limiting pin.

Preferably, the objective table is provided with a chute, and the chute is sleeved on the limiting pin, so that the objective table slides along the limiting pin.

Preferably, the energy absorbing plate is provided with a plurality of hollows.

Preferably, the hollowed-out parts are diamond-shaped or round.

Preferably, the surface of the objective table, which is close to the energy absorption plate, is provided with a plurality of reinforcing ribs.

Compared with the prior art, the utility model has the beneficial effects that: the objective table is placed on the base, and the objective table can move along the direction vertical to the surface of the energy absorption plate, and meanwhile, the supporting part is connected with the energy absorption plate. In actual use, the device to be secured is mounted on the stage. When the equipment is vibrated by external force, the objective table slides relative to the base so as to force the supporting part to drive the energy-absorbing plate to deform, so that the kinetic energy of the equipment is consumed through the deformation of the energy-absorbing plate, and the equipment is prevented from being knocked and damaged.

Drawings

FIG. 1 is a schematic diagram of an energy dissipating bracket according to an embodiment of the present utility model;

FIG. 2 is an exploded view of an energy dissipating rack according to an embodiment of the present utility model;

the energy absorbing device comprises a base 100, an inserting port 110, an energy absorbing plate 200, a blocking portion 210, a limiting port 220, a hollow 230, an objective table 300, a supporting portion 310, a supporting port 311, a sliding groove 320, a reinforcing rib 330 and a limiting pin 400.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 2, an embodiment of the present utility model provides a damping support frame, which belongs to the field of supporting devices, and is used for supporting and fixing the devices. When the equipment vibrates due to the action of external force, the supporting frame can consume the kinetic energy of the equipment through local deformation, so that the equipment is prevented from being damaged due to collision.

In some preferred embodiments, the damping support comprises an energy absorbing plate 200, an objective table 300 and two bases 100, the two bases 100 are disposed opposite to each other, the energy absorbing plate 200 is mounted between the two bases 100, and the energy absorbing plate 200 can deform in a direction perpendicular to the plate surface. The two ends of the objective table 300 are respectively mounted on the base 100 and can move along the direction perpendicular to the plate surface of the energy absorbing plate 200, and the objective table 300 extends out of the supporting portion 310, and the supporting portion 310 is connected with the energy absorbing plate 200.

In the above embodiment, the stage 300 is placed on the base 100, and the stage 300 can be moved in a direction perpendicular to the plate surface of the energy absorbing plate 200, while the supporting portion 310 is connected to the energy absorbing plate 200. In actual use, the device to be secured is mounted on the stage 300. When the equipment is vibrated by external force, the objective table 300 slides relative to the base 100 so as to force the supporting part 310 to drive the energy absorbing plate 200 to deform, thereby consuming the kinetic energy of the equipment through the deformation of the energy absorbing plate 200 and avoiding the damage of the equipment caused by collision.

In some preferred embodiments, there are a plurality of energy absorber plates 200, and the plurality of energy absorber plates 200 are arranged in an array. The plurality of energy absorbing plates 200 collectively support the stage 300, thereby providing sufficient support force for the stage 300. It will be appreciated that the greater the number of energy absorber plates 200, the greater the support force that the energy absorber plates 200 can provide to the stage 300, with the sizing of a single energy absorber plate 200.

As long as an embodiment is possible in which the supporting portion 310 and the energy absorbing plates 200 are connected to each other, in some preferred embodiments, the supporting portion 310 is provided with a plurality of supporting openings 311 corresponding to the plurality of energy absorbing plates 200 one by one, and the energy absorbing plates 200 are inserted through the supporting openings 311. Because the energy-absorbing plate 200 is inserted into the supporting opening 311, the supporting portion 310 is located in the middle of the energy-absorbing plate 200, and when the objective table 300 vibrates with the device, the inner wall of the supporting opening 311 presses the energy-absorbing plate 200, so that the energy-absorbing plate 200 deforms to absorb kinetic energy.

As long as an embodiment is possible in which the base 100 and the energy absorbing plate 200 are connected to each other, in some preferred embodiments, the base 100 is provided with an insertion port 110, and the end of the energy absorbing plate 200 is inserted through the insertion port 110. The two ends of the energy absorbing plate 200 are respectively penetrated into the two plug-in ports 110, so that the energy absorbing plate 200 can be installed on the base 100.

Based on the above embodiments, in some preferred embodiments, the end of the energy absorbing plate 200 has a blocking portion 210, and the blocking portion 210 prevents the energy absorbing plate 200 from penetrating completely through the interface 110. Since the blocking portion 210 abuts against the sidewall of the base 100, the energy absorbing plate 200 can be restricted from sliding with respect to the base 100.

In addition, in some preferred embodiments, the end of the energy absorbing plate 200 away from the blocking portion 210 is provided with a limiting opening 220, and the damping support frame further includes a limiting pin 400, where the limiting pin 400 is inserted into the limiting opening 220, so as to limit the movement of the energy absorbing plate 200 relative to the base 100 through the limiting pin 400.

In the above embodiment, the limiting pin 400 may abut against the side wall of the base 100, so as to limit the energy absorbing plate 200 from sliding relative to the base 100, and under the combined action of the limiting pin 400 and the blocking portion 210, the energy absorbing plate 200 may be completely fixed on the base 100.

Based on the above embodiments, in some preferred embodiments, the stage 300 is provided with a sliding slot 320, and the sliding slot 320 is sleeved on the limiting pin 400, so that the stage 300 slides along the limiting pin 400. The limiting pin 400 can guide the objective table 300, and the objective table 300 can have a stable sliding track.

In some preferred embodiments, the energy absorbing plate 200 is provided with a plurality of hollows 230, and the energy absorbing plate 200 is provided with a plurality of hollows 230, so that the energy absorbing plate 200 is easier to deform. For the particular shape of the hollowed-out portions 230, in some preferred embodiments, the hollowed-out portions 230 are diamond-shaped or circular.

In addition, the energy absorbing plate 200 is preferably an energy absorbing plate 200 that can be plastically deformed, so as to avoid rebound of the energy absorbing plate 200 after absorbing kinetic energy.

In some preferred embodiments, the side of the object table 300 adjacent to the energy absorbing plate 200 has a plurality of ribs 330, and the ribs 330 can enhance the structural strength of the object table 300, thereby enabling the object table 300 to have a stronger carrying capacity.

The limiting pin 400 can press against the side wall of the base 100, so that the energy absorbing plate 200 can be limited to slide relative to the base 100, and the energy absorbing plate 200 can be completely fixed on the base 100 under the combined action of the limiting pin 400 and the blocking part 210. The stage 300 is provided with a chute 320, and the chute 320 is sleeved on the limiting pin 400, so that the stage 300 slides along the limiting pin 400. The limiting pin 400 can guide the objective table 300, and the objective table 300 can have a stable sliding track. So that the stage 300 can move in a direction perpendicular to the plate surface of the energy absorbing plate 200 while the supporting part 310 is coupled to the energy absorbing plate 200. In actual use, the device to be secured is mounted on the stage 300. When the equipment is vibrated by external force, the objective table 300 slides relative to the base 100 so as to force the supporting part 310 to drive the energy absorbing plate 200 to deform, thereby consuming the kinetic energy of the equipment through the deformation of the energy absorbing plate 200 and avoiding the damage of the equipment caused by collision.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any of various other corresponding changes and modifications made according to the technical idea of the present utility model should be included in the scope of the claims of the present utility model.

Claims (10)

1. A damped support bracket, comprising:

two bases which are oppositely arranged;

the energy absorbing plate is erected between the two bases and can deform along the direction perpendicular to the plate surface;

and the two ends of the objective table are respectively arranged on the base and can move along the direction vertical to the surface of the energy absorption plate, the objective table extends out of the supporting part, and the supporting part is connected with the energy absorption plate.

2. The damping support frame according to claim 1, wherein a plurality of the energy absorbing plates are arranged in an array.

3. The damping support frame according to claim 2, wherein the support portion is provided with a plurality of support openings corresponding to the energy absorbing plates one by one, and the energy absorbing plates are arranged in the support openings in a penetrating manner.

4. The damping support frame of claim 1, wherein the base is provided with an insertion port, and the energy absorbing plate end head is inserted into the insertion port.

5. The damped support bracket of claim 4 wherein said energy absorber plate head has a blocking portion which prevents said energy absorber plate from passing entirely through said socket.

6. The damping support frame according to claim 5, wherein a limiting opening is formed in one end, away from the blocking portion, of the energy absorbing plate, and the damping support frame further comprises a limiting pin, wherein the limiting pin penetrates through the limiting opening to limit the energy absorbing plate to move relative to the base through the limiting pin.

7. The damping support according to claim 6, wherein the stage is provided with a chute, and the chute is sleeved on the limiting pin, so that the stage slides along the limiting pin.

8. The damping support frame of claim 1, wherein the energy absorbing plate is provided with a plurality of hollows.

9. The damped support frame of claim 8, wherein said hollowed-out is diamond or circular.

10. The damping support according to any one of claims 1 to 9, wherein the stage has a plurality of ribs on a side thereof adjacent to the energy absorbing plate.