CN213900410U - Insulating heat-conducting damping base for controlling electrical equipment - Google Patents

Abstract

The utility model discloses a control electrical equipment is with insulating heat conduction vibration damping mount belongs to control electrical equipment technical field, including base body, bottom plate and shell, the upside of bottom plate is provided with base body, and first recess has been seted up to base body's upper surface, is provided with the mounting panel in the first recess, and the mounting panel is the U-shaped, and the inner wall fixedly connected with first insulation pad of mounting panel. The utility model discloses in, through setting up first damper and second damper, when base body lets electrical equipment receive vibrations at the removal in-process, first damper and second damper carry out the shock attenuation to electrical equipment, electrical equipment shakes from top to bottom and can lead to the fact the influence to the mounting panel, second spring and cushion can be extruded to the mounting panel, power equipment drives the positioning disk and forms the extrusion force to the silica gel pad when rocking, the silica gel pad drives the removal of third triangle piece, the third triangle piece receives the buffering effect of buffer wheel and fifth spring, let electrical equipment can slightly lateral shifting play fine buffering shock attenuation effect.

Description

Insulating heat-conducting damping base for controlling electrical equipment

Technical Field

The utility model belongs to the technical field of control electrical equipment, especially, relate to a control electrical equipment is with insulating heat conduction vibration damping mount.

Background

The electrical equipment is a general name for equipment based on electric power operation, such as a power distribution cabinet, a power box and other electrical equipment, and the basic element of the electrical equipment is insulation, so that the good insulation of a distribution line and the electrical equipment is kept, the basic element is the most basic element for ensuring personal safety and normal operation of the electrical equipment, and whether the performance of the electrical insulation is good or not can be measured by measuring parameters such as insulation resistance, compressive strength, leakage current and dielectric loss of the electrical equipment.

The existing electrical equipment is generally provided with a base in the using process, the base can protect the electrical equipment, and the base can assist to move when the electrical equipment is moved, so that the use of the electrical equipment is convenient, but the existing base has certain defects, such as incapability of damping the electrical equipment to a certain degree, if the electrical equipment meets uneven road surfaces in the transportation process, the base and the electrical equipment can vibrate together, so that the transportation of the electrical equipment is not facilitated, the damage of the electrical equipment can be caused, meanwhile, the existing electrical equipment generally radiates heat through a self-carried heat radiating device, the heat radiation effect is poor, and although the electrical equipment is internally provided with an insulating mechanism, the external part of the electrical equipment is ensured to be in an insulating state, so that people are prevented from being injured, but the insulating mechanism can also break down, this can occur in a leakage situation that may harm people.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that in the prior art, a base cannot absorb and dissipate shock of electrical equipment and electric leakage is likely to occur, the insulating heat-conducting shock absorption base for controlling the electrical equipment is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an insulating heat-conducting shock absorption base for controlling electrical equipment comprises a base body, a bottom plate and a shell, wherein the base body is arranged on the upper side of the bottom plate, a first groove is formed in the upper surface of the base body, a mounting plate is arranged in the first groove and is in a U shape, a first insulating pad is fixedly connected to the inner wall of the mounting plate, the mounting plate is fixedly connected with one end of a first shock absorption mechanism, the first shock absorption mechanism is arranged in the base body, a first heat dissipation mechanism is arranged in the base body, the base body is fixedly connected to the upper surface of a positioning disc, the positioning disc is attached to the lower surface of the inner wall of a second groove, the second groove is formed in the upper surface of the bottom plate, a plurality of silica gel pads are attached to the outer surface of the positioning disc and are respectively arranged at the four corners of the inner wall of the second groove, and two second shock absorption mechanisms are, the second damping mechanisms are arranged in the bottom plate, a third triangular block is arranged between the two second damping mechanisms and fixedly connected to the inner wall of the silica gel pad, the outer side of the base body is provided with two protection plates, the two protection plates are L-shaped, two first slots are arranged on the opposite surfaces of the two protection plates, first insertion blocks are arranged in the first slots, the first insertion blocks are fixedly connected to the outer surface of the base body, the opposite ends of the two protection plates are mutually attached and detachably connected through a buckle mechanism, this internal buffer gear that is provided with of base, buffer gear's top fixedly connected with shell is provided with second heat dissipation mechanism in the shell, and the outside of second heat dissipation mechanism is provided with pump water mechanism, and pump water mechanism sets up on the shell, and the upper surface of shell is provided with a plurality of second fans, and a plurality of second fans turn right align to grid from a left side and set up, is provided with air feed mechanism on the shell.

As a further description of the above technical solution:

first damper includes the cushion of fixed connection at the mounting panel lower surface, and cushion fixed connection is at the lower surface of first recess inner wall, and the four corners department of mounting panel lower surface all is connected through the lower fixed surface of second spring with first recess inner wall.

As a further description of the above technical solution:

the holding tank has all been seted up to the left and right sides face of mounting panel, a side fixedly connected with fixed rope of holding tank inner wall, the other end of fixed rope runs through the inner wall of first recess and extends to the L inslot that appears, the L shape groove is seted up at the base originally internally, the first dog of the other end fixedly connected with of fixed rope, first dog sliding connection is at the L inslot that appears, fixed rope runs through the second dog of L shape inslot fixed connection, first dog is located between second dog and the cushion, through first spring fixed connection between first dog and the second dog, fixed rope is located first spring, the outside of two running rollers is walked around to fixed rope, running roller fixed connection is on the inner wall in L shape groove.

As a further description of the above technical solution:

first heat dissipation mechanism is including seting up the fresh air inlet at base body lower surface, and the fresh air inlet runs through cushion, mounting panel and first insulation pad, is provided with first fan in the fresh air inlet, and the position that mounting panel inner wall lower surface corresponds the fresh air inlet is provided with the filter mantle.

As a further description of the above technical solution:

the buckle mechanism is including seting up the draw-in groove at two guard plate opposite faces, the three hornblocks of positive fixedly connected with second of left side draw-in groove inner wall, the left surface of the three hornblocks of second and the right flank laminating of the three hornblocks of first, the right flank fixedly connected with connecting rod of the three hornblocks of first, the upper surface joint of connecting rod has the second sliding sleeve, the second sliding sleeve endotheca is equipped with the second slide bar, the both ends of second slide bar respectively with the front and the back fixed connection of draw-in groove inner wall, the outside cover of second slide bar is equipped with the fourth spring, the both ends of fourth spring respectively with the front of second sliding sleeve and a side fixed connection of draw-in groove inner wall, the front of connecting rod is through push rod fixedly connected with ejector pad, the push rod is located the positive spacing hole of seting up of guard plate, the outer fixed surface of guard plate is connected with the second insulating pad.

As a further description of the above technical solution:

the second damping mechanism comprises a second slot arranged on one side face of the inner wall of the second groove, a second inserting block is arranged in the second slot, the inner wall of the second slot is fixedly connected with one side face of the second inserting block through a fifth spring, sliding blocks are fixedly connected to the two side faces of the second inserting block, the sliding blocks are connected into sliding grooves formed in the inner wall of the second groove in a sliding mode, a buffering wheel is fixedly connected to one end of the second inserting block, and the buffering wheel is attached to an inclined face of a third triangular block.

As a further description of the above technical solution:

buffer gear is provided with the third dog including seting up the cavity in the base body in the cavity, and the lower surface of third dog passes through the lower fixed surface of third spring with the cavity inner wall to be connected, the upper surface of third dog passes through first slide bar fixed connection at the lower surface of shell, and first slide bar cover is established in the first slide sleeve of base body upper surface joint.

As a further description of the above technical solution:

the second heat dissipation mechanism is including setting up a plurality of heating panels in the shell, and a plurality of radiating grooves have all been seted up to the left and right sides face of heating panel, the heating panel runs through the jack that the shell openly was seted up, and heating panel fixed connection is in the front of connecting plate, and the connecting plate can be dismantled the connection at the back of shell through a plurality of bolts, is provided with the filter screen in the connecting plate, the back fixedly connected with handle of connecting plate.

As a further description of the above technical solution:

the utility model discloses a water pump, including the coil pipe of setting in the shell, the coil pipe is the U-shaped, and the heating panel setting is in the coil pipe depressed part, and the upper surface of coil pipe passes through the lower surface intercommunication of a plurality of hoses and pipe, and the hose runs through shell and pipe fixed connection on the shell, and the back intercommunication of pipe has the water pipe, and the other end of water pipe and the delivery port intercommunication of water pump, water pump setting are in the water tank, and water tank fixed connection is at the back of bottom plate, the back intercommunication of coil pipe has a plurality of nozzles, and the position of nozzle and heat dissipation groove corresponds each other.

As a further description of the above technical solution:

the air supply mechanism comprises an air pump fixedly connected to the outer surface of the shell, an air outlet of the air pump is communicated with an air pipe, and the other end of the air pipe penetrates through the shell and is communicated with the outer surface of the coil pipe.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. in the utility model, by arranging the first damping mechanism and the second damping mechanism, when the base body enables the electrical equipment to be vibrated in the moving process, the first damping mechanism and the second damping mechanism can damp the electrical equipment, the vertical vibration of the electrical equipment can affect the mounting plate, the mounting plate can extrude the second spring and the elastic cushion, the electrical equipment can receive good damping effect when being buffered by the second spring and the elastic cushion, by arranging the fixing rope, the first stop block, the second stop block and the first spring, when the base body moves up and down, one end of the fixing rope can be pulled, the other end of the fixing rope can pull the first stop block, the first stop block can extrude the first spring, the first spring buffers tension, then the first spring pulls the other end of the fixing rope through self elastic extension, one end of the fixing rope pulls the mounting plate to move upwards, let the mounting panel receive fine buffering effect, and then played fine buffering effect to base body and electrical equipment, and electrical equipment also can transversely rock, through setting up the silica gel pad, three hornblocks in the third, buffering wheel and fifth spring, electrical equipment drives the positioning disk and forms the extrusion force to the silica gel pad when rocking, the silica gel pad drives three hornblocks and removes, three hornblocks in the third receive the buffering effect of buffering wheel and fifth spring, let electrical equipment can slightly transverse movement play fine buffering shock attenuation effect.

2. In the utility model, by arranging the first heat dissipation mechanism, the second heat dissipation mechanism and the air blowing mechanism, the first fan in the first heat dissipation mechanism can blow air to the inside of the power equipment when working, the filter cover is arranged inside the power equipment, the filter cover filters dust in the air at the moment, the air enters the inside of the power equipment and flows rapidly, at the moment, the inside of the power equipment can be effectively cooled, the heat dissipation plate in the second heat dissipation mechanism can be inserted into the inside of the power equipment and absorbs heat in the power equipment and conducts the heat into the shell, by arranging the water pumping mechanism, the water pumping mechanism can pump clear water into the coil pipe, the clear water is sprayed out through the arranged nozzle which is an atomizing nozzle, thereby spraying water mist on the heat dissipation plate, by arranging the second fan, the second fan can not only dissipate heat to the heat dissipation plate, but also can quickly dry the water mist, the heat is further taken away, the heat dissipation effect is improved, and the heat dissipation influence on the power equipment is improved through the dual heat dissipation effect.

3. The utility model discloses in, through setting up first insulating pad, first insulating pad can play insulating protection's effect to the mounting panel, and through setting up guard plate and the insulating pad of second, guard plate and the insulating pad of second can play fine protection and insulating effect to base body, influence people effectively with separating between base body and the people when avoiding the power equipment electric leakage.

Drawings

Fig. 1 is a schematic view of a front view cross-sectional structure of an insulating, heat-conducting and shock-absorbing base for controlling electrical equipment according to the present invention;

fig. 2 is a schematic view of a top-down partial cross-sectional structure of an insulating, heat-conducting and shock-absorbing base for controlling electrical equipment according to the present invention;

fig. 3 is a schematic side view of a cross-sectional structure of a damping mechanism and a water pumping mechanism of an insulating heat-conducting damping base for controlling electrical equipment according to the present invention;

fig. 4 is a schematic structural diagram of a side view of a coil pipe in an insulating heat-conducting damping base for controlling electrical equipment according to the present invention;

fig. 5 is an enlarged schematic structural view of a position a in the insulated heat-conducting shock-absorbing base for controlling electrical equipment according to the present invention;

fig. 6 is a schematic view of a cross-sectional structure of a bottom plate in an insulating heat-conducting damping base for controlling electrical equipment according to the present invention;

fig. 7 is an enlarged schematic structural view of a position B in the insulating heat-conducting damping base for controlling electrical equipment according to the present invention.

Illustration of the drawings:

1. a base body; 2. mounting a plate; 3. a first insulating pad; 4. a first heat dissipation mechanism; 41. A filter housing; 42. a first fan; 43. an air inlet hole; 5. a first damper mechanism; 51. a first stopper; 52. a first spring; 53. fixing a rope; 54. a second stopper; 55. a roller; 56. a second spring; 57. an elastic pad; 6. a housing; 7. a second heat dissipation mechanism; 71. a heat dissipation plate; 72. A heat sink; 73. filtering with a screen; 74. a connecting plate; 8. a water pumping mechanism; 81. a water pipe; 82. a conduit; 83. a nozzle; 84. a coil pipe; 85. a water pump; 86. a water tank; 9. a second fan; 10. A jack; 11. a buffer mechanism; 111. a first slide bar; 112. a third stopper; 113. a third spring; 114. a cavity; 12. an air supply mechanism; 121. an air pump; 122. an air tube; 13. a protection plate; 14. a second insulating pad; 15. a first insert block; 16. a buckle mechanism; 161. a first triangular block; 162. a second triangular block; 163. a second slide bar; 164. a push rod; 165. a limiting hole; 166. a fourth spring; 167. a connecting rod; 17. a silica gel pad; 18. a third triangular block; 19. Positioning a plate; 20. a second damper mechanism; 201. a fifth spring; 202. a slider; 203. a second insert block; 204. a buffer wheel; 21. a base plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: an insulating heat-conducting shock absorption base for controlling electrical equipment comprises a base body 1, a bottom plate 21 and a shell 6, wherein the base body 1 is arranged on the upper side of the bottom plate 21, a first groove is formed in the upper surface of the base body 1, a mounting plate 2 is arranged in the first groove, the mounting plate 2 is U-shaped, a first insulating pad 3 is fixedly connected to the inner wall of the mounting plate 2, the mounting plate 2 is fixedly connected with one end of a first shock absorption mechanism 5, the first shock absorption mechanism 5 is arranged in the base body 1, the first shock absorption mechanism 5 comprises an elastic pad 57 fixedly connected to the lower surface of the mounting plate 2, the elastic pad 57 is fixedly connected to the lower surface of the inner wall of the first groove, four corners of the lower surface of the mounting plate 2 are fixedly connected with the lower surface of the inner wall of the first groove through a second spring 56, the electrical equipment vibrates up and down to affect the mounting plate 2, and the mounting plate 2 extrudes the second spring 56 and the elastic pad 57, when the electric equipment is buffered by the second spring 56 and the elastic pad 57, the electric equipment can receive good damping effect, the left side and the right side of the mounting plate 2 are both provided with holding grooves, one side surface of the inner wall of the holding groove is fixedly connected with the fixed rope 53, the other end of the fixed rope 53 penetrates through the inner wall of the first groove and extends into the L-shaped groove, the L-shaped groove is arranged in the base body 1, the other end of the fixed rope 53 is fixedly connected with the first stop dog 51, the first stop dog 51 is connected in the L-shaped groove in a sliding manner, the fixed rope 53 penetrates through the second stop dog 54 fixedly connected in the L-shaped groove, the first stop dog 51 is positioned between the second stop dog 54 and the elastic pad 57, the first stop dog 51 is fixedly connected with the second stop dog 54 through the first spring 52, the fixed rope 53 is positioned in the first spring 52, the fixed rope 53 bypasses the outer sides of the two rollers 55, the rollers 55 are fixedly connected on the inner wall of the L-shaped groove, and the fixed rope 53 is arranged on the inner wall of the L-shaped groove, The base body 1 can pull one end of a fixing rope 53 when moving up and down, the other end of the fixing rope 53 can pull the first stopper 51, the first stopper 51 can move to extrude the first spring 52, the first spring 52 buffers tension, the first spring 52 pulls the other end of the fixing rope 53 through self elastic extension, one end of the fixing rope 53 pulls the mounting plate 2 to move upwards, the mounting plate 2 is enabled to be subjected to a good buffering effect, a good buffering effect is further achieved on the base body 1 and electrical equipment, the electrical equipment can transversely shake, and the fixing rope 53 moves on the outer side of the roller 55 through the roller 55, so that the fixing rope 53 cannot be abraded in the moving process;

the base body 1 is internally provided with a first heat dissipation mechanism 4, the first heat dissipation mechanism 4 comprises an air inlet 43 formed in the lower surface of the base body 1, the air inlet 43 penetrates through the elastic pad 57, the mounting plate 2 and the first insulating pad 3, a first fan 42 is arranged in the air inlet 43, a filter cover 41 is arranged on the lower surface of the inner wall of the mounting plate 2 corresponding to the air inlet 43, the first fan 42 and the filter cover 41 are arranged, when the first fan 42 works, air can be blown to blow the inside of the power equipment, the filter cover 41 is arranged in the power equipment, at the moment, the filter cover 41 filters dust in the air, meanwhile, the air enters the inside of the power equipment and flows rapidly, and at the moment, the inside of the power equipment can be effectively cooled;

the base body 1 is fixedly connected to the upper surface of a positioning disc 19, the positioning disc 19 is attached to the lower surface of the inner wall of a second groove, the second groove is formed in the upper surface of a bottom plate 21, a plurality of silica gel pads 17 are attached to the outer surface of the positioning disc 19, the silica gel pads 17 are respectively arranged at the four corners of the inner wall of the second groove, two second damping mechanisms 20 are respectively arranged at the four corners of the second groove, the second damping mechanisms 20 are arranged in the bottom plate 21, a third triangular block 18 is arranged between the two second damping mechanisms 20, each second damping mechanism 20 comprises a second slot formed in one side surface of the inner wall of the second groove, a second inserting block 203 is arranged in each second slot, the inner wall of each second slot is fixedly connected with one side surface of the second inserting block 203 through a fifth spring 201, sliding blocks 202 are fixedly connected to the two side surfaces of the second inserting block 203, and the sliding blocks 202 are slidably connected in sliding grooves formed in the inner wall of the second groove, one end of the second insert block 203 is fixedly connected with a buffer wheel 204, the buffer wheel 204 is attached to the inclined plane of the third triangular block 18, the power equipment drives the positioning disc 19 to form extrusion force on the silica gel pad 17 when shaking through the arrangement of the silica gel pad 17, the third triangular block 18, the buffer wheel 204 and the fifth spring 201, the silica gel pad 17 drives the third triangular block 18 to move, the third triangular block 18 is subjected to the buffer effect of the buffer wheel 204 and the fifth spring 201, so that the electrical equipment can slightly and transversely move to achieve a good buffer and shock absorption effect, and the second insert block 203 can stably move and cannot be separated from the second slot through the arrangement of the sliding block 202 and the sliding groove;

the third triangular block 18 is fixedly connected to the inner wall of the silica gel pad 17, two protection plates 13 are arranged on the outer side of the base body 1, the two protection plates 13 are L-shaped, two first slots are formed in opposite surfaces of the two protection plates 13, first insertion blocks 15 are arranged in the first slots, the first insertion blocks 15 are fixedly connected to the outer surface of the base body 1, opposite ends of the two protection plates 13 are mutually attached and detachably connected through a buckling mechanism 16, the buckling mechanism 16 comprises clamping slots formed in opposite surfaces of the two protection plates 13, a second triangular block 162 is fixedly connected to the front surface of the inner wall of the clamping slot on the left side, the left side surface of the second triangular block 162 is attached to the right side surface of the first triangular block 161, a connecting rod 167 is fixedly connected to the right side surface of the first triangular block 161, a second sliding sleeve is clamped to the upper surface of the connecting rod 167, a second sliding rod 163 is sleeved in the second sliding sleeve, and two ends of the second sliding rod 163 are respectively fixedly connected to the front surface and the back surface of the inner wall of the clamping slots, a fourth spring 166 is sleeved on the outer side of the second sliding rod 163, two ends of the fourth spring 166 are respectively and fixedly connected with the front surface of the second sliding sleeve and one side surface of the inner wall of the clamping groove, the front surface of the connecting rod 167 is fixedly connected with a push block through a push rod 164, the push rod 164 is positioned in a limit hole 165 formed in the front surface of the protection plate 13, the outer surface of the protection plate 13 is fixedly connected with a second insulating pad 14, the second triangle block 162 can move under the action of the second sliding rod 163 and the second sliding sleeve by arranging a first triangle block 161, the second triangle block 162 can be separated from the first triangle block 161, at the moment, the two protection plates 13 can be detached and separated, through arranging the fourth spring 166, the fourth spring 166 pulls the second sliding sleeve to shrink through self elasticity, the second sliding sleeve drives the third triangle block 18 to be clamped on the first triangle block 161 through the connecting rod 167, therefore, the first triangular block 161 and the second triangular block 162 are clamped with each other, the two protection plates 13 are prevented from being automatically separated, a worker pushes the connecting rod 167 to move through the push rod 164 by arranging the push rod 164, and the two protection plates 13 can be conveniently detached after the first triangular block 161 and the second triangular block 162 are separated;

a buffer mechanism 11 is arranged in the base body 1, the top end of the buffer mechanism 11 is fixedly connected with a shell 6, the buffer mechanism 11 comprises a cavity 114 arranged in the base body 1, a third block 112 is arranged in the cavity 114, the lower surface of the third block 112 is fixedly connected with the lower surface of the inner wall of the cavity 114 through a third spring 113, the upper surface of the third block 112 is fixedly connected to the lower surface of the housing 6 through a first sliding rod 111, the first sliding rod 111 is sleeved in a first sliding sleeve clamped on the upper surface of the base body 1, and through the arrangement of the first sliding rod 111, the first sliding sleeve and the third spring 113, the first sliding rod 111 can move up and down under the action of the first sliding bush, so that the shell 6 can shake up and down without affecting the power equipment, meanwhile, the third spring 113 has a good buffering effect on the shell 6 by utilizing the elasticity of the third spring, so that the power equipment is indirectly buffered;

a second heat dissipation mechanism 7 is arranged in the shell 6, the second heat dissipation mechanism 7 comprises a plurality of heat dissipation plates 71 arranged in the shell 6, a plurality of heat dissipation grooves 72 are arranged on the left side surface and the right side surface of each heat dissipation plate 71, the heat dissipation plate 71 penetrates through the jack 10 formed in the front face of the shell 6, the heat dissipation plate 71 is fixedly connected to the front face of the connecting plate 74, the connecting plate 74 is detachably connected to the back face of the shell 6 through a plurality of bolts, a filter screen 73 is arranged in the connecting plate 74, a handle is fixedly connected to the back face of the connecting plate 74, by providing the heat dissipation plate 71, it is possible to insert the heat dissipation plate into the electric power device, absorb the heat in the electric power device, and conduct the heat into the housing 6, by arranging the connecting plate 74, the handle and the filter screen 73, the connecting plate 74 is controlled by the handle to move so as to drive the filter screen 73 to move, the filter screen 73 can prevent dust, and hot air in the shell 6 can pass through the filter screen 73 to be discharged;

the outside of the second heat dissipation mechanism 7 is provided with a water pumping mechanism 8, the water pumping mechanism 8 is arranged on the housing 6, the water pumping mechanism 8 comprises a coil 84 arranged in the housing 6, the coil 84 is U-shaped, the heat dissipation plate 71 is arranged at a concave position of the coil 84, the upper surface of the coil 84 is communicated with the lower surface of the conduit 82 through a plurality of hoses, the hoses penetrate through the housing 6, the conduit 82 is fixedly connected to the housing 6, the back surface of the conduit 82 is communicated with a water pipe 81, the other end of the water pipe 81 is communicated with a water outlet of a water pump 85, the water pump 85 is arranged in a water tank 86, the water tank 86 is fixedly connected to the back surface of the bottom plate 21, the back surface of the coil 84 is communicated with a plurality of nozzles 83, the nozzles 83 correspond to the positions of the heat dissipation grooves 72, through the water pumping mechanism 8, clear water can be pumped into the coil 84, the clear water is sprayed out through the arranged nozzles 83, and the nozzles 83 are atomizing nozzles 83, therefore, water mist can be sprayed out of the heat dissipation plate 71, the second fan 9 is arranged, the second fan 9 blows air to the heat dissipation plate 71, heat dissipation can be achieved, the water mist can be quickly dried, heat is further taken away, the heat dissipation effect is improved, and the heat dissipation influence on the power equipment is improved through the double heat dissipation effect;

the upper surface of shell 6 is provided with a plurality of second fans 9, and a plurality of second fans 9 turn right align to grid from a left side and set up, is provided with air feed mechanism 12 on the shell 6, air feed mechanism 12 includes air pump 121 of fixed connection at the shell 6 surface, and the gas outlet intercommunication of air pump 121 has trachea 122, and the other end of trachea 122 runs through shell 6 and communicates with the surface of coil pipe 84, and through setting up air pump 121, air pump 121 can be to coil pipe 84 internal air feed, and the air in the coil pipe 84 can be through nozzle 83 blowout to the air can be air-dried moisture fast by the blowout.

The working principle is as follows: when in use, the electric equipment is placed in the mounting plate 2, the heat dissipation plate 71 is controlled by the handle to move, the heat dissipation plate 71 is inserted into the electric equipment, at the same time, the connecting plate 74 is fixed by bolts to prevent the heat dissipation plate 71 from moving, and when the power equipment is subjected to vibration, under the action of the first vibration mechanism and the second vibration mechanism, the electric equipment can receive good buffering effect, if the power equipment needs to be radiated, the fan in the first radiating mechanism 4 is controlled to work, meanwhile, the radiating plate 71 can continuously discharge the heat in the power equipment to the outside, the second radiating mechanism 7, the water pumping mechanism 8 and the air supply mechanism 12 are controlled to work simultaneously, the heat led into the radiating plate 71 can be well treated, the radiating speed of the heat is accelerated, and thus the heat in the power equipment can be quickly radiated, if the protection plates 13 are damaged, the worker quickly detaches the two protection plates 13 by using the snap mechanism 16.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (10)

1. An insulating heat-conducting shock absorption base for controlling electrical equipment comprises a base body (1), a bottom plate (21) and a shell (6), and is characterized in that the base body (1) is arranged on the upper side of the bottom plate (21), a first groove is formed in the upper surface of the base body (1), a mounting plate (2) is arranged in the first groove, the mounting plate (2) is U-shaped, a first insulating pad (3) is fixedly connected to the inner wall of the mounting plate (2), the mounting plate (2) is fixedly connected with one end of a first shock absorption mechanism (5), the first shock absorption mechanism (5) is arranged in the base body (1), a first heat dissipation mechanism (4) is arranged in the base body (1), the base body (1) is fixedly connected to the upper surface of a positioning plate (19), the positioning plate (19) is attached to the lower surface of the inner wall of a second groove, and the second groove is formed in the upper surface of the bottom plate (21), the outer surface of the positioning disc (19) is attached with a plurality of silica gel pads (17), the silica gel pads (17) are respectively arranged at the four corners of the inner wall of the second groove, the four corners of the second groove are respectively provided with two second damping mechanisms (20), the second damping mechanisms (20) are arranged in the bottom plate (21), a third triangular block (18) is arranged between the two second damping mechanisms (20), the third triangular block (18) is fixedly connected on the inner wall of the silica gel pads (17), the outer side of the base body (1) is provided with two protection plates (13), the two protection plates (13) are L-shaped, two first slots are respectively arranged on the opposite surfaces of the two protection plates (13), first insertion blocks (15) are arranged in the first slots, the first insertion blocks (15) are fixedly connected on the outer surface of the base body (1), the opposite ends of the two protection plates (13) are mutually attached and detachably connected through a buckle mechanism (16), the improved fan base is characterized in that a buffering mechanism (11) is arranged in the base body (1), a shell (6) is fixedly connected to the top end of the buffering mechanism (11), a second heat dissipation mechanism (7) is arranged in the shell (6), a water pumping mechanism (8) is arranged on the outer side of the second heat dissipation mechanism (7), the water pumping mechanism (8) is arranged on the shell (6), a plurality of second fans (9) are arranged on the upper surface of the shell (6), the second fans (9) are evenly arranged from left to right, and an air supply mechanism (12) is arranged on the shell (6).

2. The insulated heat-conducting damping base for the control electrical equipment is characterized in that the first damping mechanism (5) comprises an elastic pad (57) fixedly connected to the lower surface of the mounting plate (2), the elastic pad (57) is fixedly connected to the lower surface of the inner wall of the first groove, and the four corners of the lower surface of the mounting plate (2) are fixedly connected with the lower surface of the inner wall of the first groove through second springs (56).

3. The insulating heat-conducting shock-absorbing base for the control electrical equipment as claimed in claim 2, wherein the left and right side surfaces of the mounting plate (2) are respectively provided with a containing groove, one side surface of the inner wall of the containing groove is fixedly connected with a fixing rope (53), the other end of the fixing rope (53) penetrates through the inner wall of the first groove and extends into an L-shaped groove, the L-shaped groove is arranged in the base body (1), the other end of the fixing rope (53) is fixedly connected with a first stop block (51), the first stop block (51) is slidably connected in the L-shaped groove, the fixing rope (53) penetrates through a second stop block (54) fixedly connected in the L-shaped groove, the first stop block (51) is positioned between the second stop block (54) and the elastic pad (57), the first stop block (51) and the second stop block (54) are fixedly connected through a first spring (52), the fixing rope (53) is positioned in the first spring (52), the fixed rope (53) bypasses the outer sides of the two rollers (55), and the rollers (55) are fixedly connected on the inner wall of the L-shaped groove.

4. The insulating heat-conducting shock-absorbing base for the control electrical equipment is characterized in that the first heat dissipation mechanism (4) comprises an air inlet hole (43) formed in the lower surface of the base body (1), the air inlet hole (43) penetrates through the elastic pad (57), the mounting plate (2) and the first insulating pad (3), a first fan (42) is arranged in the air inlet hole (43), and a filter cover (41) is arranged on the lower surface of the inner wall of the mounting plate (2) at a position corresponding to the air inlet hole (43).

5. The insulating, heat-conducting and shock-absorbing base for the control of the electrical equipment as recited in claim 1, wherein the fastening mechanism (16) comprises a fastening groove formed on the opposite surfaces of the two protection plates (13), the front surface of the inner wall of the fastening groove on the left side is fixedly connected with a second triangular block (162), the left side surface of the second triangular block (162) is fitted with the right side surface of the first triangular block (161), the right side surface of the first triangular block (161) is fixedly connected with a connecting rod (167), the upper surface of the connecting rod (167) is fastened with a second sliding sleeve, the second sliding sleeve is sleeved with a second sliding rod (163), the two ends of the second sliding rod (163) are respectively and fixedly connected with the front surface and the back surface of the inner wall of the fastening groove, the outer side of the second sliding rod (163) is sleeved with a fourth spring (166), the two ends of the fourth spring (166) are respectively and fixedly connected with the front surface of the second sliding sleeve and a side surface of the inner wall of the fastening groove, the front of connecting rod (167) is through push rod (164) fixedly connected with ejector pad, and push rod (164) are located spacing hole (165) that guard plate (13) openly seted up, and the outer fixed surface of guard plate (13) is connected with second insulating pad (14).

6. The insulating heat-conducting damping base for the control electrical equipment is characterized in that the second damping mechanism (20) comprises a second slot arranged on one side face of the inner wall of the second groove, a second insert block (203) is arranged in the second slot, the inner wall of the second slot is fixedly connected with one side face of the second insert block (203) through a fifth spring (201), sliding blocks (202) are fixedly connected to two side faces of the second insert block (203), the sliding blocks (202) are slidably connected in sliding grooves formed in the inner wall of the second groove, a buffer wheel (204) is fixedly connected to one end of the second insert block (203), and the buffer wheel (204) is attached to an inclined face of a third triangular block (18).

7. The insulating heat-conducting shock-absorbing base for the control electrical equipment is characterized in that the buffering mechanism (11) comprises a cavity (114) formed in the base body (1), a third stop block (112) is arranged in the cavity (114), the lower surface of the third stop block (112) is fixedly connected with the lower surface of the inner wall of the cavity (114) through a third spring (113), the upper surface of the third stop block (112) is fixedly connected with the lower surface of the shell (6) through a first sliding rod (111), and the first sliding rod (111) is sleeved in a first sliding sleeve clamped on the upper surface of the base body (1).

8. The insulating heat-conducting shock-absorbing base for the control electrical equipment is characterized in that the second heat dissipation mechanism (7) comprises a plurality of heat dissipation plates (71) arranged in the shell (6), a plurality of heat dissipation grooves (72) are formed in the left side face and the right side face of each heat dissipation plate (71), the heat dissipation plates (71) penetrate through insertion holes (10) formed in the front face of the shell (6), the heat dissipation plates (71) are fixedly connected to the front face of the connecting plate (74), the connecting plate (74) is detachably connected to the back face of the shell (6) through a plurality of bolts, a filter screen (73) is arranged in the connecting plate (74), and a handle is fixedly connected to the back face of the connecting plate (74).

9. The insulated, heat-conducting and shock-absorbing base for controlling electric equipment according to claim 1, the water pumping mechanism (8) comprises a coil (84) arranged in a shell (6), the coil (84) is U-shaped, a heat dissipation plate (71) is arranged at the concave position of the coil (84), the upper surface of the coil (84) is communicated with the lower surface of a conduit (82) through a plurality of hoses, the hoses penetrate through the shell (6) and the conduits (82) are fixedly connected onto the shell (6), the back surface of the conduit (82) is communicated with a water pipe (81), the other end of the water pipe (81) is communicated with a water outlet of a water pump (85), the water pump (85) is arranged in a water tank (86), the water tank (86) is fixedly connected onto the back surface of a bottom plate (21), the back of the coil pipe (84) is communicated with a plurality of nozzles (83), and the positions of the nozzles (83) and the heat dissipation grooves (72) correspond to each other.

10. The insulating heat-conducting shock absorption base for the control electrical equipment is characterized in that the air supply mechanism (12) comprises an air pump (121) fixedly connected to the outer surface of the shell (6), an air pipe (122) is communicated with an air outlet of the air pump (121), and the other end of the air pipe (122) penetrates through the shell (6) and is communicated with the outer surface of the coil pipe (84).

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