CN216016194U - Damping device for power equipment - Google Patents

Abstract

The application relates to the technical field of power equipment, in particular to a damping device for the power equipment, which comprises a supporting seat, a vertical damping component and a horizontal damping component; the vertical damping assembly comprises a horizontal supporting plate for placing an article to be damped, a first spring and a bearing block, one end of the first spring is fixedly connected with one end face, far away from the article to be damped, of the horizontal supporting plate, the other end of the first spring is fixedly connected with the bearing block, and the bearing block is fixedly arranged on the supporting seat; horizontal shock-absorbing assembly includes with treat first vertical splint, first vertical baffle and the fourth spring of shock attenuation article butt, the one end and the first vertical baffle fixed connection of fourth spring, the other end and first vertical splint fixed connection, first vertical baffle can be dismantled and arrange in on the horizontal support plate, first vertical splint slide and arrange in on the horizontal support plate. This application can carry out diversified shock attenuation to power equipment.

Description

Damping device for power equipment

Technical Field

The application relates to the technical field of power equipment, in particular to a damping device for power equipment.

Background

The power equipment is a power generation and consumption system composed of links such as power generation, power transmission, power transformation, power distribution and power utilization, and the power equipment needs to be protected in any scene. The power equipment is also protected by damping, and a damping device of the power equipment is used for resisting damage influence of external force on the power equipment.

Some existing power equipment can directly place the equipment box on the ground when in use, or directly and simply fixedly place the equipment box on a shock absorption cushion.

In view of the above-mentioned related art, the inventor believes that such a handling manner cannot guarantee that the electric power equipment is not damaged when being pressed by external force in various directions.

SUMMERY OF THE UTILITY MODEL

In order to realize multidirectional shock attenuation to power equipment, this application provides a damping device for power equipment.

The application provides a damping device for power equipment adopts following technical scheme: a damping device for power equipment comprises a supporting seat, a vertical damping component and a horizontal damping component; the vertical damping assembly comprises a horizontal supporting plate for placing an article to be damped, a first spring and a bearing block, one end of the first spring is fixedly connected with one end face, far away from the article to be damped, of the horizontal supporting plate, the other end of the first spring is fixedly connected with the bearing block, and the bearing block is fixedly arranged on the supporting seat; horizontal shock-absorbing assembly includes with treat first vertical splint, first vertical baffle and the fourth spring of shock attenuation article butt, the one end and the first vertical baffle fixed connection of fourth spring, the other end and first vertical splint fixed connection, first vertical baffle can be dismantled and arrange in on the horizontal support plate, first vertical splint slide and arrange in on the horizontal support plate.

Through adopting above-mentioned technical scheme, through placing power equipment on the horizontal support plate that has first spring in the below, when power equipment received vertical exogenic action, horizontal support plate position can descend, and first spring is compressed, and when exogenic action disappeared, the anti-deformation restoring force that first spring produced upwards held up horizontal support plate to the realization is to the shock attenuation in the vertical direction of power equipment. When the horizontal external force towards first vertical splint is used to power equipment, first vertical splint position can take place to remove, and the fourth spring is compressed, and when the external force effect disappears, the anti-deformation restoring force that the fourth spring produced promotes first vertical splint to primary importance to the realization is to the shock attenuation in the horizontal direction of power equipment.

Optionally, horizontal shock-absorbing assembly still include with wait to damp vertical splint of shock attenuation article butt, the vertical baffle of second and fifth spring, the one end and the vertical baffle fixed connection of second of fifth spring, the other end and the vertical splint fixed connection of second, the vertical baffle of second can be dismantled and arrange in on the horizontal support plate, the vertical splint of second slides and arranges in on the horizontal support plate.

Through adopting above-mentioned technical scheme, when the horizontal external force towards the vertical splint of second is used power equipment, the vertical splint position of second can take place to remove, the fifth spring is compressed, when exogenic action disappears, the anti-deformation that the fifth spring produced restores force and promotes the initial position with the vertical splint of second, thereby realize the shock attenuation in the horizontal direction to power equipment, and the position through adjustable first vertical baffle and the vertical baffle of second, make first vertical baffle and the vertical baffle of second can support power equipment simultaneously, carry out the shock attenuation to the power equipment of equidimension not, this damping device's practicality has been improved.

Optionally, the supporting seat comprises a base, and a seat wall is arranged around the base; vertical damper includes head rod, first pulley, first articulated part and second spring, head rod one end is connected with first pulley, and the other end rotates with first articulated part to be connected, second spring one end and seat wall fixed connection, the other end and the body of rod fixed connection of head rod, first articulated part is fixed to be set up on the base, a terminal surface butt of treating the shock attenuation article is kept away from with horizontal supporting plate to first pulley.

Through adopting above-mentioned technical scheme, when power equipment is used to power equipment as the power of vertical direction down, horizontal supporting plate moves down for relative slope takes place for the head rod, and the second spring takes place deformation this moment, and after exogenic action, the deformation that the second spring produced restores force and makes head rod and horizontal supporting plate resume original position, has realized the shock attenuation to power equipment.

Optionally, the vertical damping assembly further comprises a second connecting rod, a second pulley, a second hinged part and a third spring, one end of the second connecting rod is connected with the first pulley, the other end of the second connecting rod is rotatably connected with the second hinged part, one end of the third spring is fixedly connected with the seat wall, the other end of the third spring is fixedly connected with the rod body of the second connecting rod, the second hinged part is fixedly arranged on the base, and the second pulley and the horizontal supporting plate are far away from one end face of the object to be damped to abut against.

Through adopting above-mentioned technical scheme, when power equipment is used to power equipment as the power of vertical direction down, horizontal supporting plate moves down for the relative slope takes place for the second connecting rod, and the third spring takes place deformation this moment, and after external force effect, the deformation that the third spring produced restores force and makes second connecting rod and horizontal supporting plate resume original position, can further carry out the shock attenuation to power equipment.

Optionally, a horizontal sliding groove is formed in one end face, away from the object to be damped, of the horizontal supporting plate, and the first pulley and the second pulley are arranged in the horizontal sliding groove and can freely slide along the length direction of the horizontal sliding groove.

Through adopting above-mentioned technical scheme, when relative movement takes place for head rod and horizontal layer board, horizontal spout can play spacing effect for first pulley and second pulley can be on horizontal layer board steadily remove.

Optionally, a first protruding block is integrally arranged at one end of the first vertical baffle close to the horizontal supporting plate, and a second protruding block is integrally arranged at one end of the second vertical baffle close to the horizontal supporting plate; spacing check have been seted up to the one end that horizontal layer board is close to treating the shock attenuation article, but first lug, second lug plug arrange in spacing check.

Through adopting above-mentioned technical scheme, through setting up first lug and second lug, realized transferring the removal and the fixing of first vertical baffle and the vertical baffle of second on horizontal layer board.

Optionally, still be provided with insulating assembly on vertical damper assembly and the horizontal damper assembly, insulating assembly includes first insulation piece, second insulating piece and third insulating piece, the first insulation piece sets up on horizontal layer board is close to the terminal surface of treating the shock attenuation article, the second insulating piece sets up on first vertical splint is close to a terminal surface of treating the shock attenuation article, the third insulating piece sets up on the vertical splint of second is close to a terminal surface of treating the shock attenuation article.

Through adopting above-mentioned technical scheme, through setting up first insulation piece, second insulation piece and third insulation piece, need absorbing power equipment not direct and damping device contact, improved the security of device.

Optionally, the first insulation piece has been close to the terminal surface of treating the shock attenuation article and has been seted up first friction line, the second insulation piece has been close to the terminal surface of treating the shock attenuation article and has been seted up second friction line, and the third insulation piece has been close to the terminal surface of treating the shock attenuation article and has been seted up third friction line.

Through adopting above-mentioned technical scheme, first friction line has increased the frictional force between power equipment and the horizontal support plate, and the second friction line has increased the frictional force between power equipment and the vertical splint of first, and the third friction line has increased the frictional force between power equipment and the vertical splint of second to can fix power equipment on the horizontal support plate better.

The beneficial effect that this application realized: the horizontal shock absorption assembly realizes shock absorption of the power equipment in the horizontal direction, and the vertical shock absorption assembly realizes shock absorption of the power equipment in the vertical direction.

Drawings

FIG. 1 is a schematic view of a shock absorber for electrical equipment in front elevation;

FIG. 2 is a schematic view of a horizontal pallet of the damping device for electrical equipment of the present application;

FIG. 3 is a schematic top view of a damping device for an electrical power apparatus;

FIG. 4 is a schematic view of a first vertical baffle of a damping device for electrical equipment of the present application;

FIG. 5 is a schematic structural view of a second vertical baffle of a damping device for electrical equipment of the present application;

fig. 6 is a schematic structural view of a second insulating sheet of the damping device for an electrical apparatus of the present application;

fig. 7 is a schematic structural diagram of a third insulation sheet of the damping device for an electric power apparatus.

Description of reference numerals: 1. a supporting seat; 11. A base; 12. a seat wall; 2. a vertical shock absorbing assembly; 201. a horizontal support plate; 2011. a horizontal chute; 2012. a limit grid; 202. a first spring; 203. a bearing block; 204. a first connecting rod; 205. a first pulley; 206. a first hinge member; 207. a second spring; 208. a second connecting rod; 209. a second pulley; 210. a second hinge member; 211. a third spring; 3. a horizontal shock absorbing assembly; 31. a first vertical splint; 32. a first vertical baffle; 321. a first bump; 33. A fourth spring; 34. a second vertical baffle; 341. a second bump; 35. a second vertical splint; 36. a fifth spring; 4. An insulating assembly; 41. a first insulating sheet; 411. a gap; 412. a first rub mark; 42. a second insulating sheet; 421. a second friction texture; 43. a third insulating sheet; 431. and a third friction texture.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a damping device for power equipment, and with reference to fig. 1, the damping device for the power equipment comprises a supporting seat 11, a vertical damping component 22 and a horizontal damping component 33 which are in a cubic structure, wherein the vertical damping component 2 and the horizontal damping component 3 are both arranged on the supporting seat 1; power equipment places in supporting seat 1, through the damage that extrusion caused to power equipment in the reducible vertical direction of vertical shock-absorbing component 2, through the damage that extrusion caused to power equipment in the reducible horizontal direction of horizontal shock-absorbing component 3.

Referring to fig. 1, supporting seat 1 includes base 11 and the perpendicular seat wall 12 that sets up of base 11, seat wall 12 is installed around base 11, base 11 encloses into one with seat wall 12 and puts the thing chamber, vertical damper assembly 2 is including the horizontal layer board 201 that holds power equipment, first spring 202 and bearing block 203, an end welding of bearing block 203 is on base 11, relative terminal surface welds with the one end of first spring 202, the first spring 202 other end welds with horizontal layer board 201, and horizontal layer board 201 level is arranged in and is put the thing intracavity, horizontal layer board 201 and seat wall 12 butt, and horizontal layer board 201 can slide on seat wall 12. When the power equipment placed on the horizontal supporting plate 201 is extruded in the vertical direction, the power equipment drives the horizontal supporting plate 201 to move downwards, the horizontal supporting plate 201 moving downwards can compress the first spring 202, the first spring 202 deforms, so the first spring 202 generates deformation restoring force, and further the horizontal supporting plate 201 is supported, so that the power equipment is restored to the original position, and the shock absorption of the power equipment is realized.

Referring to fig. 1, the vertical shock absorbing assembly 2 further includes a first connecting rod 204, a first pulley 205, a first hinge member 206, and a second spring 207, and in this embodiment, the first hinge member 206 employs a hinge shaft; one end of the first connecting rod 204 is rotatably connected with the first hinge component 206, and the other end is connected with the first pulley 205; one end of the second spring 207 is welded on the seat wall 12, and the other end is welded with the rod body of the first connecting rod 204; the first hinge member 206 is mounted on the base 11, and the first pulley 205 abuts against the end surface of the horizontal support plate 201 away from the electrical equipment. When horizontal support plate 201 moves down, horizontal support plate 201 takes place relative slip with first pulley 205, and first connecting rod 204 takes place the slope than former position to second spring 207 takes place deformation, and second spring 207 produces deformation restoring force, and after exogenic action disappeared, second spring 207's deformation restoring force made first connecting rod 204 resume former position, and then horizontal mop pole and power equipment all can resume former position.

Referring to fig. 2, a horizontal sliding groove 2011 is formed in an end face, away from the power device, of the horizontal supporting plate 201, the first pulley 205 is placed in the horizontal sliding groove 2011 and can freely slide, the horizontal sliding groove 2011 can limit a moving track of the first pulley 205, and stability of the first pulley 205 in a moving process is improved.

Referring to fig. 1, the vertical shock absorbing assembly 2 further includes a second connecting rod 208, a second pulley 209, a second hinge member 210, and a third spring 211, in this embodiment, the second hinge member 210 employs a hinge shaft; one end of the second connecting rod 208 is rotatably connected with the second hinge component 210, and the other end is connected with the second pulley 209; one end of the third spring 211 is welded on the seat wall 12, and the other end is welded with the rod body of the second connecting rod 208; the second hinge member 210 is mounted on the base 11, and the second pulley 209 abuts against the end surface of the horizontal support plate 201 away from the power equipment. When horizontal support plate 201 moves down, relative slip takes place for horizontal support plate 201 and second pulley 209, and the slope takes place for original position for second connecting rod 208 to third spring 211 takes place deformation, and third spring 211 produces deformation restoring force, and after external force action disappeared, the deformation restoring force of third spring 211 made second connecting rod 208 resume original position, and then horizontal mop pole and power equipment all can resume original position.

Similarly, the second pulley 209 is disposed in the horizontal sliding groove 2011 and can freely slide, and the horizontal sliding groove 2011 can limit the moving track of the second pulley 209, thereby improving the stability of the second pulley 209 in the moving process.

Referring to fig. 1 and 3, the horizontal damping assembly 3 includes a first vertical baffle 32, a first vertical clamping plate 31, and a fourth spring 33, wherein the first vertical baffle 32 is disposed in parallel with the first vertical clamping plate 31, the first vertical baffle 32 is detachably mounted on the horizontal support plate 201, the first vertical clamping plate 31 is slidably mounted on the horizontal support plate 201, one end of the fourth spring 33 is welded to the first vertical baffle 32, and the other end is welded to the first vertical clamping plate 31. After first vertical splint 31 and power equipment looks butt, when power equipment received towards the ascending external force of first vertical splint 31 side, first vertical splint 31 can compress fourth spring 33, and the fourth spring 33 of compressed produces deformation restoring force, and after external force disappeared, under the effect of fourth spring 33 deformation restoring force, original state can be resumeed to first vertical splint 31 to power equipment's shock attenuation has been realized.

Referring to fig. 4, the lower end of the first vertical baffle 32 is provided with a first protruding block 321, and in combination with fig. 3, a plurality of spacing grids 2012 with the same size are arranged above the horizontal supporting plate 201, the first protruding block 321 and the spacing grids 2012 have the same size, and the first protruding block 321 can be tightly embedded into the spacing grids 2012. According to the size of actual power equipment, mention first lug 321 below first vertical baffle 32, insert first lug 321 in suitable spacing check 2012, through the position of nimble adjustment first vertical baffle 32, improved this damping device's practicality.

Referring to fig. 1 and 3, the horizontal shock-absorbing assembly 3 further includes a second vertical baffle 34, a second vertical clamping plate 35, and a fifth spring 36, wherein the second vertical baffle 34 is disposed in parallel with the second vertical clamping plate 35, the second vertical baffle 34 is detachably mounted on the horizontal supporting plate 201, the second vertical clamping plate 35 is slidably mounted on the horizontal supporting plate 201, one end of the fifth spring 36 is welded to the second vertical baffle 34, and the other end is welded to the second vertical clamping plate 35. After the vertical splint 35 of second and power equipment looks butt, when power equipment received towards the ascending external force of the vertical splint 35 side of second, the vertical splint 35 of second can compress fifth spring 36, and the fifth spring 36 of compressed produces deformation restoring force, and after external force disappeared, under the effect of the 36 deformation restoring forces of fifth spring, the vertical splint 35 of second resumable to original state to power equipment's shock attenuation has been realized.

Similarly, referring to fig. 5, the lower end of the second vertical baffle 34 is provided with a second protrusion 341, the size of the second protrusion 341 is the same as that of the spacing lattice 2012, and the second protrusion 341 can be tightly inserted into the spacing lattice 2012. According to the size of actual power equipment, the second lug 341 below the second vertical baffle 34 is lifted, the second lug 341 is inserted into the appropriate limiting lattice 2012, and the position of the second vertical baffle 34 is flexibly adjusted, so that the practicability of the damping device is improved.

Referring to fig. 1, an insulating member 4 is mounted on the vertical and horizontal shock absorbing members 2 and 3. The insulation assembly 4 comprises a first insulation sheet 41, a second insulation sheet 42 and a third insulation sheet 43, the first insulation sheet 41 is installed on one end face, close to the power equipment, of the horizontal support plate 201, a gap 411 is arranged on the first insulation sheet 41, the length and width of the gap 411 on the first insulation sheet 41 are the same as the length and width of the limit grids 2012, and therefore the first vertical baffle 32 is fixed on the horizontal support plate 201; the second insulating sheet 42 is installed at an end face of the first vertical clamping plate 31 close to the power equipment, the third insulating sheet 43 is installed at an end face of the second vertical clamping plate 35 close to the power equipment, the first insulating sheet 41, the second insulating sheet 42 and the third insulating sheet 43 isolate the power equipment and the damping equipment, and the safety is improved.

Referring to fig. 3, a first friction pattern 412 is arranged on the surface of the first insulation sheet 41, the first friction pattern 412 can improve the friction force between the power equipment and the first insulation sheet 41, referring to fig. 6, a second friction pattern 421 is arranged on the surface of the second insulation sheet 42, the second friction pattern 421 improves the friction force between the second insulation sheet 42 and the power equipment, referring to fig. 7, a third friction pattern 431 is arranged on the surface of the third insulation sheet 43, the third friction pattern 431 improves the friction force between the third insulation sheet 43 and the power equipment, and the first friction pattern 412, the second friction pattern 421 and the third friction pattern 431 enable the power equipment to be not prone to slide when abutting against the damping equipment, so that the stability of the device is improved.

The implementation principle is as follows: place power equipment in supporting seat 1, after on power equipment is used to the ascending external force of vertical direction, horizontal pallet 201 can be pushed down, the upwards deformation restoring force that first spring 202 produced this moment can make horizontal pallet 201 resume original position state, through first pulley 205, the head rod 204 that second pulley 209 and horizontal pallet 201 are connected, second connecting rod 208 can be respectively by second spring 207, the pulling force effect of third spring 211, make horizontal pallet 201 resume original position state, thereby reduce the damage that power device received the external force effect to produce in vertical direction. The first and second vertical baffles 32 and 34 can be fixed by the interaction of the first and second protrusions 321 and 341 with the spacing lattice 2012 on the upper surface of the horizontal supporting plate 201. The first vertical clamping plate 31 and the second vertical clamping plate 35 are connected through the fourth spring 33, the fifth spring 36 is connected to the second vertical clamping plate 35, after external force in the horizontal direction acts on the electric power equipment, the first vertical clamping plate 31 or the second vertical clamping plate 35 can be squeezed, and the corresponding fourth spring 33 or the fifth spring 36 can generate opposite deformation restoring force, so that the first vertical clamping plate 31 or the second vertical clamping plate 35 can restore to the original position device, and the damage of the electric power device caused by the external force in the horizontal direction is reduced.

The above embodiments are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the above embodiments, so: all equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A damping device for an electrical apparatus, characterized in that: comprises a supporting seat (1), a vertical damping component (2) and a horizontal damping component (3); the vertical shock absorption assembly (2) comprises a horizontal supporting plate (201) for placing an article to be shock absorbed, a first spring (202) and a bearing block (203), one end of the first spring (202) is fixedly connected with one end face, far away from the article to be shock absorbed, of the horizontal supporting plate (201), the other end of the first spring is fixedly connected with the bearing block (203), and the bearing block (203) is fixedly installed on the supporting seat (1); horizontal damper assembly (3) include with wait first vertical splint (31), first vertical baffle (32) and fourth spring (33) of shock attenuation article butt, the one end and first vertical baffle (32) fixed connection of fourth spring (33), the other end and first vertical splint (31) fixed connection, first vertical baffle (32) can be dismantled and arrange in on horizontal support plate (201), first vertical splint (31) slide and arrange in on horizontal support plate (201).

2. A damping device for electrical equipment according to claim 1, characterized in that: horizontal shock-absorbing assembly (3) still include with wait the vertical splint of second (35), the vertical baffle of second (34) and fifth spring (36) of shock attenuation article butt, the one end and the vertical baffle of second (34) fixed connection of fifth spring (36), the other end and the vertical splint of second (35) fixed connection, the vertical baffle of second (34) can be dismantled and arrange in on horizontal supporting plate (201), the vertical splint of second (35) slide and arrange in on horizontal supporting plate (201).

3. A damping device for electrical equipment according to claim 2, characterized in that: the supporting seat (1) comprises a base (11), and seat walls (12) are arranged on the periphery of the base (11); vertical shock-absorbing component (2) include head rod (204), first pulley (205), first articulated part (206) and second spring (207), head rod (204) one end is connected with first pulley (205), and the other end rotates with first articulated part (206) to be connected, second spring (207) one end and seat wall (12) fixed connection, the body of rod fixed connection of the other end and head rod (204), first articulated part (206) is fixed to be set up on base (11), a terminal surface butt of treating the shock attenuation article is kept away from with horizontal supporting plate (201) in first pulley (205).

4. A damping device for electrical equipment according to claim 3, characterized in that: vertical damper (2) still include second connecting rod (208), second pulley (209), the articulated part of second (210) and third spring (211), second connecting rod (208) one end is connected with first pulley (205), and the other end rotates with the articulated part of second (210) to be connected, third spring (211) one end and seat wall (12) fixed connection, the body of rod fixed connection of the other end and second connecting rod (208), the articulated part of second (210) is fixed to be set up on base (11), an end face butt of treating the shock attenuation article is kept away from with horizontal support plate (201) to second pulley (209).

5. A damping device for electrical equipment according to claim 4, characterized in that: horizontal spout (2011) have been seted up on horizontal layer board (201) keep away from treating the terminal surface of shock attenuation article, first pulley (205) and second pulley (209) are all arranged in horizontal spout (2011) and can be followed the length direction free slip of horizontal spout (2011).

6. A damping device for electrical equipment according to claim 2, characterized in that: a first lug (321) is integrally arranged at one end of the first vertical baffle (32) close to the horizontal supporting plate (201), and a second lug (341) is integrally arranged at one end of the second vertical baffle (34) close to the horizontal supporting plate (201); spacing check (2012) have been seted up to horizontal layer board (201) one end near treating the shock attenuation article, and first lug (321) and second lug (341) are pluggable and are arranged in spacing check (2012).

7. A damping device for electrical equipment according to claim 2, characterized in that: still be provided with insulating assembly (4) on vertical damper (2) and horizontal damper (3), insulating assembly (4) include first insulation piece (41), second insulating piece (42) and third insulating piece (43), first insulation piece (41) set up on horizontal supporting plate (201) is close to a terminal surface of treating the shock attenuation article, second insulating piece (42) set up on first vertical splint (31) are close to a terminal surface of treating the shock attenuation article, third insulating piece (43) set up on vertical splint (35) of second are close to a terminal surface of treating the shock attenuation article.

8. A damping device for electrical equipment according to claim 7, characterized in that: first insulating piece (41) are close to the terminal surface of treating the shock attenuation article and have seted up first friction line (412), second insulating piece (42) are close to the terminal surface of treating the shock attenuation article and have seted up second friction line (421), and third insulating piece (43) are close to the terminal surface of treating the shock attenuation article and have seted up third friction line (431).

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