CN220556030U - Insulating mounting structure of power generation equipment - Google Patents

Abstract

The utility model discloses an insulating mounting structure of power generation equipment, which comprises a main frame beam, a mounting component for fixing the power generation equipment and an anti-vibration component for protecting the power generation equipment, wherein the mounting component comprises a first fixing plate arranged above the main frame beam, a first insulating pad fixedly connected with the outer side of the first fixing plate, a second fixing plate fixedly connected with the top of the first insulating pad, supporting rods fixedly connected with the periphery of the top of the second fixing plate and a mounting plate fixedly connected with the top of the supporting rods.

Description

Insulating mounting structure of power generation equipment

Technical Field

The utility model relates to the technical field of power generation equipment, in particular to an insulating installation structure of power generation equipment.

Background

The diesel generator set is a power supply device which uses a diesel engine as a prime motor to drag a synchronous generator to generate power, and is a power generation device which is quick to start, convenient to operate and maintain, low in investment and strong in environmental adaptability.

The utility model discloses a diesel generator set mounting frame, which comprises a main beam frame, wherein a vibration damping assembly is arranged at the top end of the main beam frame, the vibration damping assembly comprises a fixing plate, vibration damping springs, rubber blocks, through holes, a sleeve piece, gaskets and first mounting holes, the fixing plates are welded at four corners of the top end of the main beam frame, the vibration damping springs are connected inside the fixing plates, the rubber blocks are arranged inside the vibration damping springs, the bottom ends of the rubber blocks are fixedly connected with the fixing plates, the through holes are formed in the middle of the top ends of the rubber blocks, and the sleeve piece is arranged at the top ends of the rubber blocks.

Based on the search of above-mentioned patent to and combining the power generation facility discovery among the prior art, above-mentioned mounting bracket is when using, and although can install the generator set fixedly, can cushion vibrations, but its antidetonation effect is relatively poor, and the generator set is easily from top to bottom repeatedly beats, and when the installation is fixed, lacks corresponding insulation structure, brings the difficulty for the installation, thereby leads to the practicality to reduce.

Disclosure of Invention

The utility model aims to provide an insulating mounting structure of power generation equipment, so as to solve the problems that the conventional mounting structure proposed in the prior art can mount and fix a generator set and buffer vibration, but has poor anti-vibration effect, the generator set is easy to repeatedly jump up and down, and when being mounted and fixed, the generator set lacks a corresponding insulating structure, and difficulty is brought to the mounting, so that the practicability is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an insulating mounting structure of power generation equipment, includes the main frame roof beam, is used for carrying out fixed installation component to power generation equipment and is used for carrying out the antidetonation part that protects power generation equipment, installation component is including locating the first fixed plate of main frame roof beam top, with first fixed plate outside fixed connection's first insulating pad, with first insulating pad top fixed connection's second fixed plate, respectively with second fixed plate top fixed connection's branch all around, with branch top fixed connection's mounting panel and offer respectively in the first mounting hole of mounting panel top both sides.

Preferably, the anti-seismic component comprises a sliding rod arranged around the upper part of the main frame beam, a connecting plate fixedly connected with two ends of the sliding rod, a sliding block sleeved on the outer side of the sliding rod, a hinged plate arranged between the sliding block and the first fixed plate, a first spring fixedly connected with one side of the sliding block, a shock absorber arranged between the first fixed plate and the main frame beam, an elastic component for improving the anti-seismic effect and a limiting component for preventing the second fixed plate from being askew, two ends of the hinged plate are respectively hinged with the first fixed plate and the sliding block, the sliding rod penetrates through the sliding block and is in sliding connection with the sliding block, the connecting plate is fixedly connected with the main frame beam, and the other end of the first spring is fixedly connected with the connecting plate.

Preferably, the elastic component includes fixed blocks fixedly connected with the periphery of the top of the main frame beam respectively, grooves formed in the tops of the fixed blocks, guide rods arranged in the grooves and second springs sleeved on the outer sides of the guide rods, the guide rods are slidably connected with the grooves, the guide rods are fixedly connected with the first fixed plates, and two ends of each second spring are fixedly connected with the first fixed plates and the fixed blocks respectively.

Preferably, the limiting component comprises a supporting plate, a limiting groove and a limiting block, wherein the supporting plate is respectively and fixedly connected with the periphery of the top of the main frame beam, the limiting groove is formed in one side of the supporting plate, the limiting block is arranged in the limiting groove, the limiting block is fixedly connected with the second fixing plate, and the limiting block is in sliding connection with the limiting groove.

Preferably, guide grooves are respectively formed in the periphery of the top of the main frame beam, guide blocks are fixedly connected to the bottom of the sliding block, and the guide blocks are in sliding connection with the guide grooves.

Preferably, the main frame roof beam outside is equipped with vice frame roof beam, vice frame roof beam top is equipped with the second insulating pad, vice frame roof beam one side fixedly connected with handle, second mounting hole has been seted up respectively to vice frame roof beam top both sides, a plurality of screw holes of evenly arranging have all been seted up at main frame roof beam and vice frame roof beam top, threaded hole is equipped with the screw.

Preferably, the two sides of the bottom of the auxiliary frame beam are respectively and fixedly connected with a supporting leg, and the supporting legs and the bottom end of the main frame beam are positioned on the same plane.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting up main frame roof beam, first fixed plate, first insulating pad, second fixed plate, branch, mounting panel and first mounting hole, power generation facility can be fixed to in the first mounting hole through the bolt fastening, can install fixedly power generation facility, simultaneously because the existence of first insulating pad, can separate first fixed plate and second fixed plate, can play insulating effect, prevent to take place the electric leakage, can improve mounting structure's practicality;

2. through setting up slide bar, the connecting plate, the slider, the articulated slab, first spring, the bumper shock absorber, the fixed block, the recess, the guide arm, the second spring, the backup pad, the spacing groove, the stopper, the guide way and the guide block, when equipment produces vibrations, the slider of the other end of articulated slab can be pushed to the first fixed plate move down and slide in the slide bar outside, promote the guide arm to move down simultaneously, first spring and second spring deformation, can cushion vibrations, can protect equipment, the bumper shock absorber can absorb the conversion with mechanical energy, can prevent that first fixed plate from rocking repeatedly from top to bottom, can improve stability, the stopper can move in step with the second fixed plate, can guarantee that the second fixed plate moves only in vertical direction, guarantee stability, the guide block can move in step with the slider, also can improve slider gliding stability;

3. through setting up vice frame roof beam, second insulating pad, handle, second mounting hole, screw and landing leg, vice frame roof beam can take out to the outside, can be convenient for install not unidimensional power generation facility, and the screw can screw in threaded hole, can fix the subframe roof beam after adjusting, prevents its removal, and the landing leg can support subframe roof beam, prevents that main frame roof beam and subframe roof beam slope.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a left side view provided by the present utility model;

fig. 3 is a perspective cross-sectional view of fig. 2 at A-A provided by the present utility model.

In the figure: 1. a main frame beam; 21. a first fixing plate; 22. a first insulating pad; 23. a second fixing plate; 24. a support rod; 25. a mounting plate; 26. a first mounting hole; 27. a slide bar; 28. a connecting plate; 29. a slide block; 30. a hinged plate; 31. a first spring; 32. a damper; 33. a fixed block; 34. a groove; 35. a guide rod; 36. a second spring; 37. a support plate; 38. a limit groove; 39. a limiting block; 40. a guide groove; 41. a guide block; 42. an auxiliary frame beam; 43. a second insulating pad; 44. a handle; 45. a second mounting hole; 46. a threaded hole; 47. a screw; 48. and (5) supporting legs.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 and 3, the present utility model provides a technical solution: the utility model provides an insulating mounting structure of power generation equipment, including main frame roof beam 1, be used for carrying out fixed installation component and be used for carrying out the antidetonation part that protects power generation equipment, installation component is including locating the first fixed plate 21 of main frame roof beam 1 top, with first fixed plate 21 outside fixed connection's first insulating pad 22, with first fixed plate 23 of fixed connection's of insulating pad 22 top, respectively with second fixed plate 23 top fixed connection's branch 24 all around, with the mounting panel 25 of branch 24 top fixed connection and open respectively in the first mounting hole 26 of mounting panel 25 top both sides, first insulating pad 22 cover is established in first fixed plate 21 outside, branch 24 lower surface and second fixed plate 23 upper surface fixed connection, power generation equipment can be fixed to in the first mounting hole 26 through the bolt, can carry out the installation fixed to power generation equipment, simultaneously because the existence of first insulating pad 22, can separate first fixed plate 21 and second fixed plate 23, can play insulating effect, prevent taking place the electric leakage.

Referring to fig. 3, the shock-resistant member includes a sliding rod 27 disposed around the upper portion of the main frame beam 1, a connecting plate 28 fixedly connected to both ends of the sliding rod 27, a slider 29 sleeved outside the sliding rod 27, a hinge plate 30 disposed between the slider 29 and the first fixing plate 21, a first spring 31 fixedly connected to one side of the slider 29, a damper 32 disposed between the first fixing plate 21 and the main frame beam 1, an elastic member for improving shock resistance, and a limiting member for preventing the second fixing plate 23 from being skewed, both ends of the hinge plate 30 are hinged to the first fixing plate 21 and the slider 29, the sliding rod 27 penetrates the slider 29 and is slidably connected to the slider 29, the connecting plate 28 is fixedly connected to the main frame beam 1, the other end of the first spring 31 is fixedly connected to the connecting plate 28, when the apparatus vibrates, the slider 29 at the other end of the hinge plate 30 is pushed to slide outside the sliding rod 27 by the downward movement of the first fixing plate 21, the first spring 31 deforms, can cushion vibrations, can protect equipment, the bumper shock absorber 32 can absorb the conversion with mechanical energy, can prevent that first fixed plate 21 from rocking repeatedly from top to bottom, can improve stability, the elastomeric element includes fixed block 33 fixedly connected around with body frame roof beam 1 top respectively, set up in recess 34 at fixed block 33 top, locate guide arm 35 in recess 34 and the second spring 36 of cover outside of guide arm 35, guide arm 35 and recess 34 sliding connection, guide arm 35 and first fixed plate 21 fixed connection, second spring 36 both ends respectively with first fixed plate 21 and fixed block 33 fixed connection, guide arm 35 moves down can make second spring 36 deformation, can improve the cushioning effect to vibrations, limiting component includes the backup pad 37 of fixedly connected around with body frame roof beam 1 top respectively, the limiting groove 38 arranged on one side of the supporting plate 37 and the limiting block 39 arranged in the limiting groove 38 are fixedly connected with the second fixing plate 23, the limiting block 39 is slidably connected with the limiting groove 38, the limiting block 39 can move synchronously with the second fixing plate 23, the second fixing plate 23 can move only in the vertical direction, stability is guaranteed, the guide grooves 40 are respectively arranged on the periphery of the top of the main frame beam 1, the guide blocks 41 are fixedly connected with the bottoms of the sliding blocks 29, the guide blocks 41 are slidably connected with the guide grooves 40, the guide blocks 41 can move synchronously with the sliding blocks 29, and the sliding stability of the sliding blocks 29 can be improved.

Referring to fig. 1 and 3, an auxiliary frame beam 42 is arranged on the outer side of a main frame beam 1, a second insulating pad 43 is arranged on the top of the auxiliary frame beam 42, a handle 44 is fixedly connected to one side of the auxiliary frame beam 42, second mounting holes 45 are respectively formed in two sides of the top of the auxiliary frame beam 42, a plurality of uniformly arranged threaded holes 46 are formed in the tops of the main frame beam 1 and the auxiliary frame beam 42, screws 47 are arranged in the threaded holes 46, the auxiliary frame beam 42 can be pulled out outwards, power generation equipment with different sizes can be conveniently installed, the screws 47 can be screwed into the threaded holes 46, the adjusted auxiliary frame beam 42 can be fixed and prevented from moving, supporting legs 48 are fixedly connected to two sides of the bottom of the auxiliary frame beam 42, the supporting legs 48 and the bottom end of the main frame beam 1 are located on the same plane, and the supporting legs 48 can support the auxiliary frame beam 42, and inclination of the main frame beam 1 and the auxiliary frame beam 42 can be prevented.

Working principle: according to the size of the power generation equipment, the handle 44 is pulled to drive the auxiliary frame beam 42 to move, so that the auxiliary frame beam 42 is moved to a proper position, the supporting legs 48 and the bottom end of the main frame beam 1 are all located on the same plane, the supporting effect on the auxiliary frame beam 42 is achieved, then the screws 47 are screwed into the threaded holes 46, the auxiliary frame beam 42 is fixed, then the power generation equipment is fixed into the first mounting holes 26 and the second mounting holes 45, when the equipment works and vibrates, the second fixing plate 23 moves downwards to push the first fixing plate 21 to move downwards, the first fixing plate 21 moves downwards to push the hinge plate 30 and the guide rod 35 to move, the hinge plate 30 moves to push the sliding block 29 to slide, the first spring 31 deforms, the guide rod 35 moves downwards to deform the second spring 36, the vibration is buffered, the power generation equipment is protected, the shock absorber 32 can absorb and convert mechanical energy, the first fixing plate 21 can be prevented from shaking repeatedly up and down, the stability is the working process of the whole device, and the details not described in the specification belong to the prior art known to the expert in the field.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an insulating mounting structure of power generation equipment, includes main frame roof beam (1), is used for carrying out fixed installation component and be used for carrying out the antidetonation part of protection to power generation equipment, its characterized in that: the mounting component comprises a first fixing plate (21) arranged above the main frame beam (1), a first insulating pad (22) fixedly connected with the outer side of the first fixing plate (21), a second fixing plate (23) fixedly connected with the top of the first insulating pad (22), supporting rods (24) respectively fixedly connected with the periphery of the top of the second fixing plate (23), a mounting plate (25) fixedly connected with the top of the supporting rods (24) and first mounting holes (26) respectively formed in two sides of the top of the mounting plate (25).

2. The power generation apparatus insulation mounting structure according to claim 1, wherein: the anti-vibration component comprises a sliding rod (27) which is arranged on the periphery of the upper portion of the main frame beam (1), a connecting plate (28) which is fixedly connected with two ends of the sliding rod (27) respectively, a sliding block (29) which is sleeved on the outer side of the sliding rod (27), a hinge plate (30) which is arranged between the sliding block (29) and the first fixing plate (21), a first spring (31) which is fixedly connected with one side of the sliding block (29), a shock absorber (32) which is arranged between the first fixing plate (21) and the main frame beam (1), an elastic component which is used for improving the anti-vibration effect and a limiting component which is used for preventing the second fixing plate (23) from being inclined, two ends of the hinge plate (30) are hinged with the first fixing plate (21) and the sliding block (29) respectively, the sliding rod (27) penetrates through the sliding block (29) and is in sliding connection with the sliding block (29), the connecting plate (28) is fixedly connected with the main frame beam (1), and the other end of the first spring (31) is fixedly connected with the connecting plate (28).

3. The power generation apparatus insulation mounting structure according to claim 2, wherein: the elastic component includes fixed block (33) fixedly connected around with body frame roof beam (1) top respectively, sets up recess (34) at fixed block (33) top, locates guide arm (35) and cover in recess (34) and locates second spring (36) in the outside of guide arm (35), guide arm (35) and recess (34) sliding connection, guide arm (35) and first fixed plate (21) fixed connection, second spring (36) both ends respectively with first fixed plate (21) and fixed block (33) fixed connection.

4. The power generation apparatus insulation mounting structure according to claim 2, wherein: the limiting component comprises a supporting plate (37) fixedly connected with the periphery of the top of the main frame beam (1), a limiting groove (38) formed in one side of the supporting plate (37) and a limiting block (39) arranged in the limiting groove (38), wherein the limiting block (39) is fixedly connected with the second fixing plate (23), and the limiting block (39) is slidably connected with the limiting groove (38).

5. The power generation apparatus insulation mounting structure according to claim 2, wherein: guide grooves (40) are respectively formed in the periphery of the top of the main frame beam (1), guide blocks (41) are fixedly connected to the bottom of the sliding block (29), and the guide blocks (41) are slidably connected with the guide grooves (40).

6. The power generation apparatus insulation mounting structure according to claim 1, wherein: the auxiliary frame beam (42) is arranged on the outer side of the main frame beam (1), the second insulating pad (43) is arranged at the top of the auxiliary frame beam (42), a handle (44) is fixedly connected to one side of the auxiliary frame beam (42), second mounting holes (45) are respectively formed in two sides of the top of the auxiliary frame beam (42), a plurality of evenly-arranged threaded holes (46) are formed in the tops of the main frame beam (1) and the auxiliary frame beam (42), and screws (47) are arranged in the threaded holes (46).

7. The power generation apparatus insulation mounting structure according to claim 6, wherein: the two sides of the bottom of the auxiliary frame beam (42) are respectively fixedly connected with a supporting leg (48), and the supporting legs (48) and the bottom end of the main frame beam (1) are positioned on the same plane.