CN116505386B - power supply equipment - Google Patents

Abstract

The invention belongs to the technical field of power supplies, and particularly discloses power supply equipment which comprises a storage power supply shell, wherein a distribution power supply storage power supply is installed in the storage power supply shell, and a power supply connection port is formed in the top of the distribution power supply storage power supply. According to the invention, the power distribution storage power supply is positioned at the position of the first through the tension of the pull rope, the nut is separated from the screw rod, the power distribution storage power supply is taken out from the inside of the first through to push the power distribution storage power supply to move on the top surface of the movable plate, meanwhile, the pull rope is wound by the torsion force of the torsion spring through the winding roller, the power distribution storage power supply is limited on the top of the movable plate, and the power distribution storage power supply is positioned at the center of the inner side of the storage power supply shell under the limitation of the elasticity of the front spring and the rear spring, so that the power distribution storage power supply can be quickly replaced and overhauled.

Description

Power supply equipment

Technical Field

The invention belongs to the technical field of power supplies, and particularly relates to power supply equipment.

Background

The power supply equipment is also called a power supply, and is a device for converting other forms of energy into electric energy and providing the electric energy for electronic equipment, wherein the power supply is based on the principle of 'magnetic electricity generation', and the power supply is generated by renewable energy sources such as hydraulic power, wind power, sea tide, dam water pressure difference, solar energy and the like, and burning coal, oil residues and the like, and the types of the power supply comprise a common power supply and a special power supply.

Most power supply devices also need to be connected by a plurality of fasteners when assembled and fixed, which results in long time spent in assembling and disassembling and low assembling efficiency.

Therefore, it is necessary to invent a power supply apparatus to solve the above-described problems.

Disclosure of Invention

In view of the above problems, the present invention provides a power supply apparatus to solve the problems set forth in the background art:

in order to achieve the above purpose, the present invention provides the following technical solutions: the power supply equipment comprises a storage power supply shell, wherein a power distribution power supply storage power supply is arranged in the storage power supply shell, a power supply connection port is formed in the top of the power distribution power supply storage power supply, a storage power supply module penetrating through the top surface of the storage power supply shell is connected with the power supply connection port in the top of the power distribution power supply storage power supply, the power distribution power supply storage power supply utilizes the storage power supply module to provide electric energy required by work for an external electric appliance, a first through hole and a second through hole are respectively formed in the front side surface and the rear side surface of the storage power supply shell, a heat dissipation plate is correspondingly buckled on the second through hole, an adjusting structure is arranged on the inner side of the first through hole and is positioned at a position corresponding to the power distribution power supply storage power supply in the storage power supply shell, the adjusting structure comprises a movable frame, the movable frame is correspondingly buckled on the inner bottom of the first through hole, a baffle protecting the inner side surface of the storage power supply shell is arranged on the top of the movable frame, and the baffle is correspondingly blocked on the first through hole;

the adjusting structure further comprises a movable plate, the distribution power supply storage power supply is correspondingly placed on the top surface of the movable plate, a limiting strip is arranged at the center of the bottom surface of the inner side of the storage power supply shell, an inner rod is arranged at the opening of the top of the limiting strip, a bottom groove which is correspondingly matched with the limiting strip is arranged at the center of the bottom surface of the movable plate, a sliding block which is in sliding fit with the inner rod is arranged in the bottom groove, two end surfaces of the sliding block are respectively connected with the front inner side wall and the rear inner side wall of the storage power supply shell through springs, and the springs are sleeved on the surface of the inner rod;

the two sides of the top surface of the movable plate are respectively provided with a chute, the top surface of the movable plate is provided with a second pull plate, two sides of the bottom surface of the second pull plate are respectively provided with a connecting rod in sliding fit with the chute, the bottom surfaces of the convex blocks at two ends of the movable frame correspondingly penetrate through the two sides of the movable plate by using pull ropes, the two pull ropes are respectively positioned at the inner sides of the two chutes, and the bottom of the second pull plate is connected with the pull ropes by using the connecting rods;

the bottom of the rear side surface of the power distribution and power supply storage power supply is provided with a screw rod penetrating through the second pulling plate, the outer side end of the screw rod is spirally sleeved with a screw cap, and the power distribution and power supply storage power supply is correspondingly connected with the second pulling plate by utilizing spiral matching of the screw cap and the screw rod;

the two ends of the rear side face of the moving plate are respectively provided with a roller, the end parts of the pull ropes are wound on the surfaces of the rollers, and the rollers are connected with the moving plate by torsion springs.

Further, the adjustment structure still includes a plurality of montants, montant bottom and adjustable shelf top surface fixed connection, and the montant top runs through first opening top, and the montant top is connected with first arm-tie, storage power supply shell top surface front side end is provided with corresponds complex recess with first arm-tie, the recess bottom is provided with the vertical groove that corresponds with the montant, the adjustable shelf both ends all are provided with the lug, the both sides wall of first opening all is provided with the side groove that corresponds with two lugs, and the adjustable shelf utilizes lug and side groove to slide fit from top to bottom.

Further, storage power supply shell both sides face all is provided with a plurality of grooves, storage power supply shell both sides all are provided with the buffer board, the buffer board is made by rubber material, and the buffer board inboard utilizes the riser to correspond runs through the groove, and the buffer board utilizes the riser to be connected with the curb plate, and two curb plates are in distribution power supply storage power supply both sides respectively, and the curb plate does not contact with distribution power supply storage power supply.

Furthermore, the buffer plate medial surface is provided with square elastic sheet, and the buffer plate utilizes the elastic sheet laminating to store the power shell side, the elastic sheet is made by rubber material.

The invention has the technical effects and advantages that:

1. according to the invention, the power distribution storage power supply is positioned at the position of the first through the tension of the pull rope, the nut and the screw rod are separated, then the power distribution storage power supply is taken out from the inside of the first through hole, a new power distribution storage power supply is correspondingly arranged on the second pull plate through the spiral fit of the screw rod and the nut, the tension applied on the pull rope is released, the spring elasticity of the front side and the rear side gradually pulls the movable plate back into the storage power supply shell, when the movable plate moves back, the power distribution storage power supply is pushed to move on the top surface of the movable plate, meanwhile, the torsion force of the torsion spring winds the pull rope through the winding roller, the power distribution storage power supply is limited at the top of the movable plate, and under the limit of the elasticity of the front spring and the rear spring, the power distribution storage power supply is positioned at the center of the inner side of the storage power supply shell, so that the power distribution storage power supply can be quickly replaced and overhauled.

2. According to the invention, the impact force of external components can be absorbed through the elasticity of the buffer plate, the air in the storage power supply shell is pumped out through the strip grooves by utilizing the cooperation of the square elastic sheets and the buffer plate, and the air in the square elastic sheets is introduced into the storage power supply shell, so that the external components are prevented from directly impacting the surface of the storage power supply shell, and the heat dissipation treatment of the power distribution, power supply and storage power supply is improved by utilizing the back and forth movement of the buffer plate.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of a power supply device according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of the whole adjusting structure according to the embodiment of the present invention;

FIG. 3 is a schematic perspective view of a storage power supply enclosure according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a heat dissipating plate according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the internal components of a storage power supply enclosure of an embodiment of the present invention;

FIG. 6 is a schematic view of a buffer panel and side panel connection of an embodiment of the present invention;

in the figure: 1. a storage power supply housing; 2. a power distribution power supply storage power supply; 3. a storage power module; 4. a first port; 5. a second port; 6. a heat dissipation plate; 7. a movable frame; 8. a baffle; 9. a vertical rod; 10. a first pulling plate; 11. a vertical groove; 12. a bump; 13. a moving plate; 14. defining a strip; 15. an inner rod; 16. a slide block; 17. a spring; 18. a chute; 19. a second pulling plate; 20. a connecting rod; 21. a pull rope; 22. a screw; 23. a screw cap; 24. a roller; 25. a torsion spring; 26. a buffer plate; 27. and a side plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments.

The invention provides power supply equipment, as shown in fig. 1 to 4, the power supply equipment comprises a storage power supply shell 1, a power distribution power supply storage power supply 2 is arranged in the storage power supply shell 1, a power supply connection port is arranged at the top of the power distribution power supply storage power supply 2, a power supply module 3 penetrating through the top surface of the storage power supply shell 1 is connected with the power supply connection port at the top of the power distribution power supply storage power supply 2, the power distribution power supply storage power supply 2 utilizes the power supply module 3 to provide electric energy required by work for external electric appliances, a first through hole 4 and a second through hole 5 are respectively arranged on the front side surface and the rear side surface of the storage power supply shell 1, a heat dissipation plate 6 is correspondingly buckled on the second through hole 5, an adjusting structure is arranged on the inner side of the first through hole 4 and is positioned at a position corresponding to the power distribution power supply storage power supply 2 in the storage power supply shell 1, the adjusting structure comprises a movable frame 7, a baffle 8 protecting the inner side surface of the storage power supply shell 1 is correspondingly buckled on the bottom of the inner side of the first through hole 4, and the baffle 8 is correspondingly blocked on the top of the outer side surface of the movable frame 7. Put distribution power supply storage power 2 at the adjustment structure top through first opening 4, after storage power supply shell 1 is inside to utilize the adjustment structure to adjust distribution power supply storage power 2 to suitable position, utilize heating panel 6 shutoff second opening 5, discharge the heat that storage power shell 1 inside distribution power supply storage power 2 work produced through heating panel 6, utilize the baffle 8 of movable frame 7 to seal first opening 4, avoid external part to strike the distribution power supply storage power 2 surface inside storage power shell 1 through first opening 4 or second opening 5, can protect distribution power supply storage power 2.

After the distribution power supply storage power source 2 is correspondingly installed inside the storage power source shell 1, the storage power source module 3 is correspondingly buckled at the opening of the top of the storage power source shell 1, the bottom of the storage power source module 3 is connected with a power supply connection port of the top surface of the distribution power supply storage power source 2 in a buckling manner, a power supply interface of an external electric appliance is connected with the storage power source module 3, and the distribution power supply storage power source 2 utilizes the storage power source module 3 to provide electric energy required by work for the external electric appliance.

In fig. 1 to 3, the adjustment structure further comprises a plurality of vertical rods 9, the bottom ends of the vertical rods 9 are fixedly connected with the top surface of the movable frame 7, the top ends of the vertical rods 9 penetrate through the top of the first through holes 4, the top ends of the vertical rods 9 are connected with first pull plates 10, grooves corresponding to the first pull plates 10 are formed in the front side ends of the top surface of the storage power supply shell 1, vertical grooves 11 corresponding to the vertical rods 9 are formed in the bottoms of the grooves, protruding blocks 12 are arranged at the two ends of the movable frame 7, side grooves corresponding to the two protruding blocks 12 are formed in the two side walls of the first through holes 4, and the movable frame 7 is in up-down sliding fit with the side grooves through the protruding blocks 12. When the first through hole 4 needs to be opened, the first pull plate 10 is pulled, after the first pull plate 10 is separated from the groove, the first pull plate 10 pulls the movable frame 7 to move upwards on the inner side of the first through hole 4 by utilizing the plurality of vertical rods 9, a plurality of vertical grooves 11 in the groove are utilized to limit the plurality of vertical rods 9, the first through hole 4 utilizes two side grooves to limit the convex blocks 12 at two ends of the movable frame 7 respectively, and the movable frame 7 is ensured to be driven to move stably up and down in the first through hole 4 by the vertical rods 9.

In fig. 2, fig. 3 and fig. 5, the adjustment structure further comprises a movable plate 13, the distribution power supply storage power source 2 is correspondingly placed on the top surface of the movable plate 13, a limiting strip 14 is arranged at the center of the bottom surface of the inner side of the storage power source housing 1, an inner rod 15 is arranged at the opening of the top of the limiting strip 14, a bottom groove correspondingly matched with the limiting strip 14 is arranged at the center of the bottom surface of the movable plate 13, a sliding block 16 in sliding fit with the inner rod 15 is arranged in the bottom groove, two end surfaces of the sliding block 16 are respectively connected with the front inner wall and the rear inner wall of the storage power source housing 1 by using springs 17, and the springs 17 are sleeved on the surface of the inner rod 15. When the movable plate 13 moves inside the storage power supply housing 1, due to the sliding fit of the inner rod 15 and the sliding block 16, the movable plate 13 slides on the top surface of the limiting strip 14 by the bottom groove, and the sliding fit of the limiting strip 14 and the bottom groove and the limiting fit of the inner rod 15 and the sliding block 16 facilitate the movable plate 13 to move back and forth inside the storage power supply housing 1.

When the movable plate 13 drives the distribution power supply storage power source 2 to move back and forth inside the storage power source shell 1, the movable plate 13 utilizes the sliding blocks 16 to squeeze and pull the springs 17 on the front side and the rear side in the moving process, when the movable plate 13 is positioned at the center of the inner side of the storage power source shell 1, the elasticity of the springs 17 on the front side and the rear side is the same, and then the distribution power supply storage power source 2 is positioned at the center of the inner side of the storage power source shell 1, and a power supply connection port at the top end of the distribution power supply storage power source 2 corresponds to the bottom end of the storage power source module 3.

In fig. 2 and fig. 5, a screw rod 22 penetrating through the second pulling plate 19 is arranged at the bottom of the rear side surface of the power distribution and power supply storage power source 2, a nut 23 is screwed at the outer side end of the screw rod 22, and the power distribution and power supply storage power source 2 is correspondingly connected with the second pulling plate 19 by using the screw fit of the nut 23 and the screw rod 22. After the movable frame 7 is pulled to the top of the inner side of the first through hole 4 by utilizing the vertical rods 9, the heat dissipation plate 6 is taken down from the second through hole 5, the power distribution and supply storage power source 2 is correspondingly placed at the top of the movable plate 13, when the power distribution and supply storage power source 2 slides on the top surface of the movable plate 13, the screw rod 22 on the rear side surface of the power distribution and supply storage power source 2 correspondingly penetrates through the second pull plate 19, and the power distribution and supply storage power source 2 and the second pull plate 19 are correspondingly connected by utilizing the spiral fit of the screw cap 23 and the screw rod 22.

In fig. 2, fig. 3 and fig. 5, both sides of the top surface of the moving plate 13 are respectively provided with a chute 18, the top surface of the moving plate 13 is provided with a second pulling plate 19, both sides of the bottom surface of the second pulling plate 19 are respectively provided with a connecting rod 20 in sliding fit with the chute 18, the bottom surfaces of the protruding blocks 12 at both ends of the movable frame 7 respectively penetrate through both sides of the moving plate 13 by using pull ropes 21, and the two pull ropes 21 are respectively positioned at the inner sides of the two chutes 18, and the bottom of the second pulling plate 19 is connected with the pull ropes 21 by using the connecting rods 20. When the position of the power distribution and power supply storage power source 2 inside the storage power source shell 1 needs to be adjusted, the first pulling plate 10 is used for pulling the vertical rod 9 to move upwards, the protruding blocks 12 at two ends of the movable frame 7 are used for pulling the end parts of the pull ropes 21 to move, the end parts of the pull ropes 21 enter the side grooves of the first through holes 4 under the pulling of the movable frame 7, when the pull ropes 21 pull the movable plate 13 to move inside the storage power source shell 1, the power distribution and power supply storage power source 2 is correspondingly placed on the top surface of the movable plate 13, static friction force exists between the power distribution and power supply storage power source 2 and the top surface of the movable plate 13, the pull ropes 21 are used for pulling the power distribution and power supply storage power source 2 and the movable plate 13 to move synchronously through the connecting rods 20, and at the moment, the movable plate 13 uses the sliding blocks 16 to squeeze and pull the springs 17 at the front side and the back side. When the front side surface of the movable plate 13 contacts the front side wall of the inner side of the storage power supply shell 1, when the vertical rod 9 continuously pulls the pull rope 21 to move upwards in the side groove by using the movable frame 7, the pull rope 21 pulls the distribution power supply storage power supply 2 to slide on the top surface of the movable plate 13 by using the connecting rod 20, and when the connecting rod 20 slides on the inner side of the sliding groove 18, the distribution power supply storage power supply 2 gradually moves from the top surface of the movable plate 13 to the position of the first through hole 4 until the connecting rod 20 moves from the rear side end to the front side end of the sliding groove 18, so that a plurality of storage batteries connected inside the distribution power supply storage power supply 2 are convenient to overhaul and replace.

In fig. 2 and 5, the two ends of the rear side of the moving plate 13 are provided with a roller 24, the end of the pull rope 21 is wound on the surface of the roller 24, and the roller 24 is connected with the moving plate 13 by a torsion spring 25. When the pull rope 21 pulls the movable plate 13 to move by using the static friction force between the distributed power supply storage power source 2 and the movable plate 13, the pull rope 21 can pull the movable plate 13 to move inside the storage power source housing 1 due to the limitation of the pull rope 21 on the surface of the winding roller 24 by the torsion force of the torsion spring 25. When the front side end of the moving plate 13 contacts with the front side wall of the inner side of the storage power supply shell 1, the pull rope 21 pulls the distribution power supply storage power supply 2 by using the connecting rod 20 and the second pull plate 19 to move on the top surface of the moving plate 13, the pull rope 21 is gradually pulled out from the surface of the winding roller 24, and the winding roller 24 twists and extrudes the torsion spring 25 in the pulling process of the pull rope 21 until the distribution power supply storage power supply 2 moves to the position of the first through hole 4.

When the power distribution storage power supply 2 needs to be replaced, after the heat dissipation plate 6 is taken down from the position of the second port 5, at this moment, the power distribution storage power supply 2 is positioned at the position of the first port 4 under the pulling of the pull rope 21, the nut 23 is screwed, after the nut 23 is separated from the screw 22, the power distribution storage power supply 2 can be taken out from the inside of the first port 4, then a new power distribution storage power supply 2 is correspondingly installed on the second pull plate 19 through the screw 22 and the screw fit of the nut 23, the pulling force applied to the first pull plate 10 is released, the movable frame 7 moves downwards under the influence of the self weight on the inner side of the first port 4, the spring 17 elasticity on the front side and the rear side gradually pulls the movable plate 13 back into the storage power supply shell 1, when the movable plate 13 moves backwards, the power distribution storage power supply 2 is pushed to move on the top surface of the movable plate 13, meanwhile, the torsion of the torsion spring 25 is wound up through the winding roller 24, the outside pushing force and the torsion of the torsion spring 25 are utilized, the connecting rod 20 is conveniently moved to the position on the rear side from the front side of the chute 18, under the elasticity of the two springs 17, and the power distribution storage power supply 1 is positioned at the center of the power supply storage power supply shell 1.

In fig. 1, 3 and 6, a plurality of grooves are formed in two side surfaces of the storage power supply housing 1, buffer plates 26 are arranged in two sides of the storage power supply housing 1, the buffer plates 26 are made of rubber materials, the inner sides of the buffer plates 26 are correspondingly penetrated through the grooves by using vertical plates, the buffer plates 26 are connected with side plates 27 by using the vertical plates, the two side plates 27 are respectively arranged on two sides of the distribution power supply storage power supply 2, and the side plates 27 are not contacted with the distribution power supply storage power supply 2. The inner side surface of the buffer plate 26 is provided with square elastic sheets, the buffer plate 26 is attached to the side surface of the storage power supply shell 1 by using the elastic sheets, and the elastic sheets are made of rubber materials. When external parts strike on the buffer plate 26, the impact force of external parts can be absorbed to the elasticity of buffer plate 26 itself, impact force makes buffer plate 26 be close to when storing power supply housing 1, buffer plate 26 utilizes riser curb plate 27 to be close to distribution power supply storing power 2, because square elastic piece can be to shutoff a plurality of slots, when buffer plate 26 is close to storing power supply housing 1, buffer plate 26 pushes the inboard air of square elastic piece into storing power supply housing 1 inside through the slot, utilize two curb plates 27 that are close to each other to provide the air flow effect for storing power supply housing 1 inside, utilize the air that flows can distribution power supply storing power 2 work produced heat through heating panel 6 discharge. After the impact force disappears, the elasticity of square elastic sheet is rebounded, utilize square elastic sheet and buffer plate 26's cooperation, through the air extraction of strip groove with the inside of storage power supply housing 1, outside air enters into the inside of storage power supply housing 1 through heating panel 6, utilize buffer plate 26 and elastic sheet's elasticity cooperation, when avoiding external parts direct impact to store power supply housing 1 surface, utilize the back and forth movement of buffer plate 26 to have improved the heat dissipation to distribution power supply storage power 2.

The working principle of the invention is as follows:

referring to fig. 1 to 6 of the specification, when the position of the power distribution and supply storage power source 2 inside the storage power source housing 1 needs to be adjusted, the first pulling plate 10 is used for pulling the vertical rod 9 to move upwards, the protruding blocks 12 at two ends of the movable frame 7 are used for pulling the end parts of the pull ropes 21 to move, the end parts of the pull ropes 21 enter the side grooves of the first through holes 4 under the pulling of the movable frame 7, when the pull ropes 21 pull the movable plate 13 to move inside the storage power source housing 1, because the power distribution and supply storage power source 2 is correspondingly placed on the top surface of the movable plate 13, static friction force exists between the power distribution and supply storage power source 2 and the top surface of the movable plate 13, the pull ropes 21 are used for pulling the power distribution and supply storage power source 2 and the movable plate 13 to move synchronously, and at the moment, the movable plate 13 uses the sliding blocks 16 to squeeze and pull the springs 17 at the front side and the rear side. When the front side surface of the movable plate 13 contacts the front side wall of the inner side of the storage power supply shell 1, when the vertical rod 9 continuously pulls the pull rope 21 to move upwards in the side groove by using the movable frame 7, the pull rope 21 pulls the distribution power supply storage power supply 2 to slide on the top surface of the movable plate 13 by using the connecting rod 20, and when the connecting rod 20 slides on the inner side of the sliding groove 18, the distribution power supply storage power supply 2 gradually moves from the top surface of the movable plate 13 to the position of the first through hole 4 until the connecting rod 20 moves from the rear side end to the front side end of the sliding groove 18, so that a plurality of storage batteries connected inside the distribution power supply storage power supply 2 are convenient to overhaul and replace.

When the power distribution storage power supply 2 needs to be replaced, after the heat dissipation plate 6 is taken down from the position of the second port 5, at this moment, the power distribution storage power supply 2 is positioned at the position of the first port 4 under the pulling of the pull rope 21, the nut 23 is screwed, after the nut 23 is separated from the screw 22, the power distribution storage power supply 2 can be taken out from the inside of the first port 4, then a new power distribution storage power supply 2 is correspondingly installed on the second pull plate 19 through the screw 22 and the screw fit of the nut 23, the pulling force applied to the first pull plate 10 is released, the movable frame 7 moves downwards under the influence of the self weight on the inner side of the first port 4, the spring 17 elasticity on the front side and the rear side gradually pulls the movable plate 13 back into the storage power supply shell 1, when the movable plate 13 moves backwards, the power distribution storage power supply 2 is pushed to move on the top surface of the movable plate 13, meanwhile, the torsion of the torsion spring 25 is wound up through the winding roller 24, the outside pushing force and the torsion of the torsion spring 25 are utilized, the connecting rod 20 is conveniently moved to the position on the rear side from the front side of the chute 18, under the elasticity of the two springs 17, and the power distribution storage power supply 1 is positioned at the center of the power supply storage power supply shell 1.

After the distribution power supply storage power source 2 is adjusted to a proper position by utilizing the adjusting structure, the second opening 5 is plugged by utilizing the heat dissipation plate 6, heat generated by the work of the distribution power supply storage power source 2 is discharged by utilizing the heat dissipation plate 6, the first opening 4 is plugged by utilizing the baffle plate 8 of the movable frame 7, the surface of the distribution power supply storage power source 2 inside the storage power source shell 1 is prevented from being impacted by external parts through the first opening 4 or the second opening 5, and the distribution power supply storage power source 2 can be protected.

When external parts strike on the buffer plate 26, the impact force of external parts can be absorbed to the elasticity of buffer plate 26 itself, impact force makes buffer plate 26 be close to when storing power supply housing 1, buffer plate 26 utilizes riser curb plate 27 to be close to distribution power supply storing power 2, because square elastic piece can be to shutoff a plurality of slots, when buffer plate 26 is close to storing power supply housing 1, buffer plate 26 pushes the inboard air of square elastic piece into storing power supply housing 1 inside through the slot, utilize two curb plates 27 that are close to each other to provide the air flow effect for storing power supply housing 1 inside, utilize the air that flows can distribution power supply storing power 2 work produced heat through heating panel 6 discharge. After the impact force disappears, the elasticity of square elastic sheet is rebounded, utilize square elastic sheet and buffer plate 26's cooperation, through the air extraction of strip groove with the inside of storage power supply housing 1, outside air enters into the inside of storage power supply housing 1 through heating panel 6, utilize buffer plate 26 and elastic sheet's elasticity cooperation, when avoiding external parts direct impact to store power supply housing 1 surface, utilize the back and forth movement of buffer plate 26 to have improved the heat dissipation to distribution power supply storage power 2.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting.

Claims (3)

1. Power supply equipment, including storing power supply housing (1), its characterized in that: the power distribution storage power supply comprises a storage power supply shell (1), wherein a power distribution storage power supply (2) is internally installed, a power supply connector is arranged at the top of the power distribution storage power supply (2), a storage power supply module (3) penetrating through the top surface of the storage power supply shell (1) is connected with the power supply connector at the top of the power distribution storage power supply (2), the power distribution storage power supply (2) utilizes the storage power supply module (3) to provide electric energy required by work for an external electric appliance, a first through hole (4) and a second through hole (5) are respectively formed in the front side surface and the rear side surface of the storage power supply shell (1), a heat dissipation plate (6) is correspondingly buckled in the second through hole (5), an adjusting structure is arranged on the inner side of the first through hole (4), the adjusting structure is located at the position corresponding to the power distribution storage power supply (2) in the storage power supply shell (1), the adjusting structure comprises a movable frame (7), the movable frame (7) is correspondingly buckled at the inner bottom of the first through hole (4), a baffle (8) is installed at the top of the outer side surface of the movable frame (7), and the baffle (8) inside the storage power supply shell (1) is correspondingly blocked by the first through hole (4).

The adjusting structure further comprises a plurality of vertical rods (9), the bottom ends of the vertical rods (9) are fixedly connected with the top surface of the movable frame (7), the top ends of the vertical rods (9) penetrate through the top of the first through holes (4), the top ends of the vertical rods (9) are connected with first pull plates (10), grooves which are correspondingly matched with the first pull plates (10) are formed in the front side ends of the top surfaces of the storage power supply shell (1), vertical grooves (11) which are correspondingly formed in the bottoms of the grooves are correspondingly formed in the vertical grooves of the vertical rods (9), protruding blocks (12) are respectively formed in the two ends of the movable frame (7), side grooves which are correspondingly formed in the two side walls of the first through holes (4), and the movable frame (7) is in up-down sliding fit with the side grooves through the protruding blocks (12);

the adjusting structure further comprises a movable plate (13), the distribution power supply storage power supply (2) is correspondingly arranged on the top surface of the movable plate (13), a limiting strip (14) is arranged at the center of the bottom surface of the inner side of the storage power supply shell (1), an inner rod (15) is arranged at the opening of the top of the limiting strip (14), a bottom groove which is correspondingly matched with the limiting strip (14) is arranged at the center of the bottom surface of the movable plate (13), a sliding block (16) which is in sliding fit with the inner rod (15) is arranged in the bottom groove, two end surfaces of the sliding block (16) are respectively connected with the inner side walls of the front side and the rear side of the storage power supply shell (1) through springs (17), and the springs (17) are sleeved on the surface of the inner rod (15);

the two sides of the top surface of the movable plate (13) are respectively provided with a sliding groove (18), the top surface of the movable plate (13) is provided with a second pulling plate (19), two sides of the bottom surface of the second pulling plate (19) are respectively provided with a connecting rod (20) which is in sliding fit with the sliding grooves (18), the bottom surfaces of the lugs (12) at two ends of the movable frame (7) respectively penetrate through two sides of the movable plate (13) correspondingly by using pull ropes (21), the two pull ropes (21) are respectively positioned at the inner sides of the two sliding grooves (18), and the bottom of the second pulling plate (19) is connected with the pull ropes (21) by using the connecting rods (20);

the bottom of the rear side surface of the power distribution and power supply storage power supply (2) is provided with a screw rod (22) penetrating through the second pulling plate (19), the outer side end of the screw rod (22) is spirally sleeved with a screw cap (23), and the power distribution and power supply storage power supply (2) is correspondingly connected with the second pulling plate (19) by utilizing spiral matching of the screw cap (23) and the screw rod (22);

the two ends of the rear side surface of the moving plate (13) are provided with rolling rollers (24), the end parts of the pull ropes (21) are wound on the surfaces of the rolling rollers (24), and the rolling rollers (24) are connected with the moving plate (13) through torsion springs (25).

2. The power supply apparatus according to claim 1, characterized in that:

the storage power supply shell (1) both sides face all is provided with a plurality of grooves, storage power supply shell (1) both sides all are provided with buffer board (26), buffer board (26) are made by rubber materials, and the riser is used to the buffer board (26) inboard to correspond and runs through the groove, and buffer board (26) are connected with curb plate (27) through the riser, and two curb plates (27) are in distribution power supply storage power supply (2) both sides respectively, and curb plate (27) do not contact with distribution power supply storage power supply (2).

3. The power supply apparatus according to claim 2, characterized in that:

the inner side surface of the buffer plate (26) is provided with square elastic sheets, the buffer plate (26) is attached to the side surface of the storage power supply shell (1) by the aid of the elastic sheets, and the elastic sheets are made of rubber materials.