CN219221144U - Building electrical equipment installation device with shock-absorbing structure - Google Patents

Abstract

The utility model discloses a building electrical equipment installation device with a shock absorption structure, which comprises an installation seat; the vibration isolation mechanism is arranged on the mounting seat and comprises a fixed block and a first buffer component, and the first buffer component is suitable for bearing the fixed block; the positioning mechanism comprises a top plate, a moving part and at least two moving frames which are oppositely arranged, wherein the fixed block is suitable for bearing the top plate, the moving frames are arranged on the top surface of the top plate, and the moving part is used for enabling the two moving frames to be relatively close to or far away from each other. The positioning mechanism is arranged on the fixed block, vibration isolation and buffering are carried out on the fixed block through the first buffer part, the problem that vibration isolation performance is poor in the prior art is solved, the movable part can drive the movable frame to be relatively close to or far away from, and therefore the problem that installation stability is poor in the prior art is solved.

Description

Building electrical equipment installation device with shock-absorbing structure

Technical Field

The utility model relates to the technical field of building electrical equipment, in particular to a building electrical equipment installation device with a damping structure.

Background

Electrical equipment is a generic term for equipment such as generators, transformers, power lines, and circuit breakers in a power system. The important role of electric power in our life and production is not neglected, and the electric power brings great convenience to us, and becomes an important energy source in our production and life. The most critical factor in a power plant to enable proper operation and delivery of electricity is electrical equipment.

When the electrical equipment of the building is used, the used mounting device is required to position and protect the electrical equipment, but the common mounting device has poor mounting stability and poor vibration isolation. Accordingly, a construction electrical equipment mounting device having a shock absorbing structure has been proposed in view of the above-described problems.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the building electrical equipment installation device with the shock absorption structure, which can solve the problems of poor installation stability and poor vibration isolation in the prior art.

An embodiment of the present utility model provides a construction electrical equipment installation apparatus having a shock absorbing structure, including:

a mounting base;

the vibration isolation mechanism is arranged on the mounting seat and comprises a fixed block and a first buffer component, and the first buffer component is suitable for bearing the fixed block;

the positioning mechanism comprises a top plate, a moving part and at least two moving frames which are oppositely arranged, wherein the fixed block is suitable for bearing the top plate, the moving frames are arranged on the top surface of the top plate, and the moving part is used for enabling the two moving frames to be relatively close to or far away from each other.

The building electrical equipment mounting device with the shock absorbing structure according to the embodiment of the first aspect of the utility model has at least the following beneficial effects: the positioning mechanism is arranged on the fixed block, vibration isolation and buffering are carried out on the fixed block through the first buffer part, the problem that vibration isolation performance is poor in the prior art is solved, the movable part can drive the movable frame to be relatively close to or far away from, and therefore the problem that installation stability is poor in the prior art is solved.

According to the first aspect of the embodiment of the utility model, the first buffer component comprises a vertical buffer component and a horizontal buffer component, and the fixed block is respectively connected with the vertical buffer component and the horizontal buffer component.

According to the first aspect of the utility model, the vertical buffer component comprises the first baffle, the limiting rod and the first elastic piece, the limiting rod is vertically arranged in the mounting seat, the fixed block is provided with the sliding groove, the fixed block is in sliding connection with the limiting rod through the sliding groove, the first baffle is arranged at the top end of the limiting rod, and the first elastic piece is arranged in the sliding groove and is positioned between the fixed block and the first baffle.

According to the first aspect of the utility model, the vertical buffer assembly further comprises a pulley, a buffer pad and a damping pad, wherein the pulley is arranged on the side wall of the fixed block and is in sliding contact with the inner side wall of the mounting seat, the buffer pad is arranged at the bottom end of the limiting rod, the damping pad is sleeved on the surface of the first baffle, and the damping pad is suitable for being in sliding contact with the inner wall of the sliding groove.

According to the first aspect of the utility model, the horizontal buffer assembly comprises a bottom plate, a second elastic piece, a sliding rod, two sliding blocks and two connecting rods, wherein the two sliding blocks and the two connecting rods are oppositely arranged, the bottom plate is arranged in the mounting seat, the sliding rod is horizontally arranged on the bottom plate, the sliding blocks are arranged on the sliding rod in a sliding manner, the second elastic piece is arranged between the two sliding blocks, one end of each connecting rod is hinged with each sliding block, and the other end of each connecting rod is hinged with the fixed block.

According to the first aspect of the utility model, the moving part comprises a screw, a sliding sleeve and a knob, the screw, the sliding sleeve and the knob are arranged in groups and are matched with one moving frame, the screw is arranged on the top plate, the sliding sleeve is arranged on the screw in a sliding manner, each sliding sleeve is fixedly connected with each moving frame, and the knob is used for driving the screw to rotate and driving the sliding sleeve to slide.

According to the first aspect of the embodiment of the utility model, the mounting device of the building electrical equipment with the shock absorption structure is provided with the extrusion plate and the second buffer part, the second buffer part acts on the inner side of the extrusion plate, and the outer side of the extrusion plate is suitable for positioning.

According to the first aspect of the utility model, the second buffer component comprises a second baffle, a movable rod and a third elastic piece, the second baffle is movably arranged on the movable frame, one end of the movable rod is fixedly connected with the second baffle, the other end of the movable rod is fixedly connected with the extrusion plate, and the third elastic piece is arranged between the movable frame and the second baffle.

According to an embodiment of the first aspect of the present utility model, the moving frame is provided with an inner cavity, the second baffle is slidably disposed in the inner cavity, the inner cavity is provided with a notch for the movable rod to extend out, and the inner cavity is suitable for limiting the movable travel of the second baffle.

According to the construction electrical equipment installation device with the shock absorption structure, which is disclosed by the embodiment of the first aspect of the utility model, the movable frame is provided with the plate with the L-shaped structure, and the inner side of the movable frame is provided with the extrusion pad.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described below with reference to the drawings and examples;

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a front cross-sectional view of an embodiment of the present utility model;

fig. 3 is an enlarged view of a in fig. 2.

Reference numerals:

1. a cushion pad; 2. a damping pad; 3. a screw rod; 4. a moving rack; 5. a top plate; 6. a sliding sleeve; 7. a knob; 8. a first elastic member; 9. a fixed block; 10. a first baffle; 11. a limit rod; 12. a connecting piece; 13. a connecting rod; 14. a slide bar; 15. a bottom plate; 16. a second elastic member; 17. a sliding block; 18. a mounting base; 19. an extrusion plate; 20. a squeeze pad; 21. a movable rod; 22. a second baffle; 23. and a third elastic member.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that references to orientation descriptions, such as directions of up, down, front, back, left, right, etc., are based on the orientation or positional relationship shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the present application, the meaning of several is one or more, the meaning of a plurality is at least two, greater than, less than, exceeding, etc. is understood to not include the present number, and above, below, within, etc. is understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present application can be reasonably determined by a person skilled in the art after combining the specific contents of the technical solutions.

Referring to fig. 1 to 3, the construction electrical equipment installation apparatus with a shock absorbing structure according to the embodiment of the first aspect of the present application is applied to installation of construction electrical equipment, and includes a mount 18, a vibration isolating mechanism, and a positioning mechanism.

Wherein the mounting base 18 is used as a bearing foundation and is arranged at a corresponding position for fixing building electrical equipment; the vibration isolation mechanism is arranged on the mounting seat 18 and comprises a fixed block 9 and a first buffer component, wherein the first buffer component is suitable for bearing the fixed block 9; the positioning mechanism comprises a top plate 5, a moving part and at least two moving frames 4 which are oppositely arranged, wherein the fixed block 9 is suitable for bearing the top plate 5, the moving frames 4 are arranged on the top surface of the top plate 5, and the moving part is used for enabling the two moving frames 4 to be relatively close to or far away from each other. The positioning mechanism is arranged on the fixed block 9, vibration isolation and buffering are carried out on the fixed block 9 through the first buffer part, the problem that vibration isolation performance is poor in the prior art is solved, and the movable part can drive the movable frame 4 to be relatively close to or far away from, so that the problem that installation stability is poor in the prior art is solved.

Preferably, the movable frame 4 is set to be a plate of an L-shaped structure, that is, the tangent plane of the movable frame 4 is of an L-shaped structure, the L-shaped structure can be better attached to the bottom of the positioning device, the extrusion pad 20 is arranged on the inner side of the movable frame 4, and vibration isolation can be further carried out on the bottom side wall of the device through the extrusion pad 20.

In some embodiments of the present application, the first buffer member includes a vertical buffer assembly and a horizontal buffer assembly, and the fixing block 9 is connected to the vertical buffer assembly and the horizontal buffer assembly, respectively. It will be appreciated that the fixed block 9 is used for bearing the top plate 5, and the top plate 5 is used for locating and bearing electrical equipment, and the electrical equipment can produce multidirectional vibration when the operation, therefore set up first buffer component as vertical buffer component and horizontal buffer component matched with structure to can alleviate the vertical direction vibration and the horizontal direction vibration of fixed block 9, thereby further improve vibration isolation performance.

In some embodiments of the present application, the vertical buffer assembly includes a first baffle 10, a stop lever 11 and a first elastic member 8, the stop lever 11 is vertically disposed in the mounting seat 18, a sliding groove is disposed on the fixed block 9, the fixed block 9 is slidably connected with the stop lever 11 through the sliding groove, the first baffle 10 is disposed at the top end of the stop lever 11, and the first elastic member 8 is disposed in the sliding groove and is located between the fixed block 9 and the first baffle 10. Further, vertical buffer assembly still includes pulley, blotter 1 and damping pad 2, and the pulley sets up the lateral wall at fixed block 9 and sliding butt in the inside wall of mount pad 18, and blotter 1 sets up the bottom at gag lever post 11, and damping pad 2 cover is established on first baffle 10 surface, and damping pad 2 is suitable for the inner wall of sliding butt sliding tray.

It can be understood that the cushion pad 1 is arranged at the bottom in the mounting seat 18, the cushion pad 1 is used for further buffering the fixed block 9 by supporting the bottom end of the limiting rod 11, the top end of the limiting rod 11 is provided with the first baffle 10, the first baffle 10 is matched with the sliding groove to fix the two ends of the first elastic piece 8, vibration isolation can be carried out through the first elastic piece 8 when the fixed block 9 vibrates up and down, further, pulleys are arranged on the two sides of the fixed block 9, and the pulleys with guiding function are abutted against the inner wall of the mounting seat 18, so that the fixed block 9 can move up and down smoothly to realize vibration isolation. Meanwhile, the first baffle plate 10 is arranged in the sliding groove in a sliding way, and a port for the limiting rod 11 to pass through is formed in the lower end of the sliding groove, but the first baffle plate 10 cannot pass through, so that the movable stroke of the first baffle plate 10 is limited by the upper end and the lower end of the sliding groove. Furthermore, the damping pad 2 sleeve supports the first elastic piece 8 to further play a vibration isolation role, and meanwhile, the transmitted vibration is further dissipated by the damping pad 2 blocks and the inner wall of the sliding groove in a friction energy consumption mode.

In some embodiments of the present application, the horizontal buffering component includes a bottom plate 15, a second elastic member 16, a sliding rod 14, two sliding blocks 17 and two connecting rods 13, wherein the two sliding blocks 17 and the two connecting rods 13 are oppositely arranged, the bottom plate 15 is arranged in a mounting seat 18, the sliding rod 14 is horizontally arranged on the bottom plate 15, the sliding blocks 17 are slidably arranged on the sliding rod 14, the second elastic member 16 is arranged between the two sliding blocks 17, one end of each connecting rod 13 is hinged with each sliding block 17, and the other end of each connecting rod 13 is hinged with the fixed block 9. It will be appreciated that the bottom plate 15 is arranged at the bottom in the mounting seat 18, the slide bar 14 is arranged in the bottom plate 15, two ends of the slide bar 14 are respectively and fixedly connected with two side walls of the bottom plate 15, the slide block 17 is arranged on the slide bar 14 in a sliding manner, the top of the slide block 17 is provided with the connecting piece 12, the bottom of the fixed block 9 is also provided with the connecting piece 12, two ends of the connecting rod 13 are respectively hinged with the connecting pieces 12 to connect the fixed block 9 and the slide block 17, and the vibration isolation effect can be achieved by the rotation connection of the connecting rod 13 and the connecting piece 12. When the fixed block 9 vibrates up and down, the sliding block 17 is driven to correspondingly slide on the sliding rod 14, and vibration isolation is performed through the second elastic piece 16. More specifically, the two sliding blocks 17 and the connecting rod 13 are symmetrically arranged by taking the vertical center line of the fixed block 9 as a reference, so that the effect is better.

In some embodiments of the present application, the moving part includes a lead screw 3, a sliding sleeve 6 and a knob 7, where the lead screw 3, the sliding sleeve 6 and the knob 7 are set in groups and are adapted to one moving frame 4, the lead screw 3 is set on the top plate 5, the sliding sleeve 6 is slidably set on the lead screw 3, each sliding sleeve 6 is fixedly connected with each moving frame 4, and the knob 7 is used for driving the lead screw 3 to rotate and drive the sliding sleeve 6 to slide. When the electric equipment is installed at the top of the top plate 5 in use, the screw rod 3 can be driven to rotate through the knob 7, and the sliding sleeve 6 on the surface can drive the movable frame 4 to move together when the screw rod 3 rotates, so that the extrusion plate 19 is improved to position the bottom of the equipment. More specifically, one end of the knob 7 is connected with the screw rod 3, the screw rod 3 is connected with the sliding sleeve 6 through threads, the other end of the screw rod 3 is rotationally connected with the inner wall of the top plate 5, and the top of the sliding sleeve 6 extends out of the surface of the top plate 5 to be fixedly connected with the movable frame 4.

In some embodiments of the present application, the moving frame 4 is provided with a pressing plate 19 and a second buffer member, the second buffer member acting on the inner side of the pressing plate 19, the outer side of the pressing plate 19 being adapted for positioning. Further, the second buffer component comprises a second baffle 22, a movable rod 21 and a third elastic piece 23, the second baffle 22 is movably arranged on the movable frame 4, one end of the movable rod 21 is fixedly connected with the second baffle 22, the other end of the movable rod 21 is fixedly connected with the extrusion plate 19, and the third elastic piece 23 is arranged between the movable frame 4 and the second baffle 22. Further, the moving frame 4 is provided with an inner cavity, the second baffle 22 is slidably disposed in the inner cavity, the inner cavity is provided with a notch for the movable rod 21 to extend out, and the inner cavity is suitable for limiting the movable travel of the second baffle 22.

It can be understood that the third elastic member 23 drives the second baffle 22 to move, and then the movable rod 21 drives the extrusion plate 19 to extrude and position two sides of the device, so that the effect is better. The diameter of the second baffle 22 is larger than that of the notch on one side of the movable frame 4, so that the limiting effect can be achieved, and the second baffle 22 is prevented from being separated.

In some embodiments, the first elastic member 8, the second elastic member 16, and the third elastic member 23 are all springs.

Referring to fig. 1 to 3, the operation of this application is simple, and through roof 5, knob 7, lead screw 3, sliding sleeve 6 can control two removal framves 4 and remove, and cooperation second baffle 22, movable rod 21, third elastic component 23, stripper plate 19 and extrusion pad 20 can fix a position electrical equipment, easy to assemble electrical equipment.

The utility model has the advantages of reasonable structure, can play vibration isolation effect through fixed block 9, connecting piece 12, connecting rod 13, bottom plate 15, second spring, slide bar 14 and sliding block 17, be convenient for play the effect of protection when installing electrical equipment, can cooperate gag lever post 11 through first baffle 10, blotter 1, first spring, damping pad 2 moreover and improve vibration isolation effect.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The embodiments of the present application have been described in detail above with reference to the accompanying drawings, but the present application is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present application.

Claims (10)

1. A building electrical equipment mounting device having a shock absorbing structure, comprising:

a mounting base;

the vibration isolation mechanism is arranged on the mounting seat and comprises a fixed block and a first buffer component, and the first buffer component is suitable for bearing the fixed block;

the positioning mechanism comprises a top plate, a moving part and at least two moving frames which are oppositely arranged, wherein the fixed block is suitable for bearing the top plate, the moving frames are arranged on the top surface of the top plate, and the moving part is used for enabling the two moving frames to be relatively close to or far away from each other.

2. The building electrical equipment mounting device with shock absorbing structure according to claim 1, wherein: the first buffer component comprises a vertical buffer component and a horizontal buffer component, and the fixed block is respectively connected with the vertical buffer component and the horizontal buffer component.

3. The building electrical equipment mounting device with shock absorbing structure according to claim 2, wherein: the vertical buffer component comprises a first baffle, a limiting rod and a first elastic piece, wherein the limiting rod is vertically arranged in the mounting seat, a sliding groove is formed in the fixed block, the fixed block is connected with the limiting rod in a sliding mode through the sliding groove, the first baffle is arranged at the top end of the limiting rod, and the first elastic piece is arranged in the sliding groove and located between the fixed block and the first baffle.

4. A construction electrical equipment installation apparatus having a shock absorbing structure according to claim 3, wherein: the vertical buffer assembly further comprises a pulley, a buffer pad and a damping pad, wherein the pulley is arranged on the side wall of the fixed block and is in sliding butt joint with the inner side wall of the mounting seat, the buffer pad is arranged at the bottom end of the limiting rod, the damping pad is sleeved on the surface of the first baffle, and the damping pad is suitable for sliding butt joint with the inner wall of the sliding groove.

5. The building electrical equipment mounting device with shock absorbing structure according to claim 2, wherein: the horizontal buffering component comprises a bottom plate, a second elastic piece, a sliding rod, two sliding blocks and two connecting rods, wherein the two sliding blocks and the two connecting rods are oppositely arranged, the bottom plate is arranged in the mounting seat, the sliding rod is horizontally arranged on the bottom plate, the sliding blocks are arranged on the sliding rod in a sliding mode, the second elastic piece is arranged between the two sliding blocks, one end of each connecting rod is hinged to each sliding block respectively, and the other end of each connecting rod is hinged to the fixing block.

6. The building electrical equipment mounting device with shock absorbing structure according to claim 1, wherein: the movable part comprises a screw, sliding sleeves and a knob, wherein the screw, the sliding sleeves and the knob are arranged in groups and are matched with one movable frame, the screw is arranged on the top plate, the sliding sleeves are arranged on the screw in a sliding manner, each sliding sleeve is fixedly connected with each movable frame, and the knob is used for driving the screw to rotate and drive the sliding sleeve to slide.

7. The construction electrical equipment mounting apparatus having a shock absorbing structure according to claim 1 or 6, wherein: the movable frame is provided with an extrusion plate and a second buffer component, the second buffer component acts on the inner side of the extrusion plate, and the outer side of the extrusion plate is suitable for positioning.

8. The building electrical equipment mounting device with shock absorbing structure according to claim 7, wherein: the second buffer part comprises a second baffle, a movable rod and a third elastic piece, the second baffle is movably arranged on the movable frame, one end of the movable rod is fixedly connected with the second baffle, the other end of the movable rod is fixedly connected with the extrusion plate, and the third elastic piece is arranged between the movable frame and the second baffle.

9. The building electrical equipment mounting device with shock absorbing structure according to claim 8, wherein: the movable frame is provided with an inner cavity, the second baffle is slidably arranged in the inner cavity, the inner cavity is provided with a notch for the movable rod to extend out, and the inner cavity is suitable for limiting the movable stroke of the second baffle.

10. The building electrical equipment mounting device with shock absorbing structure according to claim 7, wherein: the movable frame is arranged as a plate with an L-shaped structure, and an extrusion pad is arranged on the inner side of the movable frame.

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