CN113595363A - Power supply equipment with cooling and ventilating structure - Google Patents

Abstract

The invention discloses a power supply device with a cooling and ventilating structure, which comprises: a cabinet body; the anti-seismic water cooling piece comprises a left anti-seismic water cooling piece, a right anti-seismic water cooling piece, a hovering piece and a water cooling part, wherein the left anti-seismic water cooling piece and the right anti-seismic water cooling piece are both arranged on the cabinet body; the convection air cooling piece comprises an upper convection air cooling piece and a lower convection air cooling piece; wherein: the left side antidetonation water-cooling piece and the right side antidetonation water-cooling piece carry out the shock attenuation to the power component that hovers on the piece to in shock attenuation process with the water-cooling liquid extrusion entering in the reservoir the water-cooling is carried out in the cabinet body, and extrudees into the water-cooling liquid promote in the convection air-cooling piece air convection in the cabinet body. The invention has the advantages of compact structure, novel design idea, high damping efficiency, good heat dissipation effect, energy conservation and low use cost, and solves the technical problem of unsmooth heat dissipation and ventilation of the conventional power supply equipment.

Description

Power supply equipment with cooling and ventilating structure

Technical Field

The invention relates to the technical field of structural parts universal for electrical equipment, in particular to power supply equipment with a cooling and ventilating structure.

Background

The heat productivity of the existing power cabinet is very high, and the protection measure is poor, especially the power cabinet applied in the industrial production place, often receives external interference such as vibration, more importantly, the temperature in the power cabinet is too high to cause the damage of power devices in the cabinet, and the existing heat dissipation means generally blows external air into the power cabinet for heat dissipation, the heat dissipation effect of the power devices with larger heat productivity is not good, simultaneously blows dust in the external air into the power cabinet together, faults such as short circuit of the power devices are easy to cause, the normal use of the power devices is affected, the daily maintenance time and cost of the power devices are increased, and the heat dissipation effect is often difficult to meet the requirement.

Disclosure of Invention

In order to overcome the defects, the invention provides power supply equipment with a cooling and ventilating structure, which solves the technical problem that the existing power supply equipment is not smooth in heat dissipation and ventilation, and specifically adopts the following technical scheme:

a power supply apparatus having a cooling ventilation structure, comprising:

a cabinet body;

the anti-seismic water cooling part is arranged on the cabinet body and comprises a left anti-seismic water cooling part, a right anti-seismic water cooling part, a hovering part and a water cooling part, the left anti-seismic water cooling part and the right anti-seismic water cooling part are arranged on the cabinet body, the hovering part is arranged on the left anti-seismic water cooling part and the right anti-seismic water cooling part, and the water cooling part is arranged on the hovering part;

the convection air cooling part is arranged on the cabinet body and comprises an upper convection air cooling part and a lower convection air cooling part, and the upper convection air cooling part and the lower convection air cooling part are both arranged on the cabinet body;

wherein: the left side antidetonation water-cooling piece with the right side antidetonation water-cooling piece is right the power component on the piece of hovering carries out the shock attenuation to in shock attenuation process with the water-cooling liquid extrusion entering in the reservoir body water-cooling is carried out in the cabinet body pipeline, and squeezes the water-cooling liquid and promote in the convection air-cooling piece air convection in the cabinet body.

Preferably, the cabinet body comprises a cabinet shell, a left sliding long-strip through hole is formed in the left side surface of the cabinet shell, and the left sliding long-strip through holes are uniformly distributed in the left side surface of the cabinet shell; be provided with the rectangular through hole of right side slip on the cabinet shell right flank, it is a plurality of the rectangular through hole of right side slip is in evenly distributed on the cabinet shell right flank.

Preferably, the left side antidetonation water-cooling piece includes protecting groove, lower extreme damping tube, lower extreme damping spring, upper end damping tube and upper end damping spring, the protecting groove is the rectangle trough-like, the protection notch fastening is in on a cabinet shell side.

Preferably, the lower damping tube comprises a lower damping groove, an upper damping groove and a liquid storage bag, the lower damping groove is rectangular groove-shaped, the lower damping groove is fixedly arranged on one side wall of the protection groove, the upper damping groove is rectangular groove-shaped, the upper damping groove is buckled on the opening of the lower damping groove, the liquid storage bag is rectangular sealed bag-shaped, the liquid storage bag is embedded in the lower damping groove and the upper damping groove, and the liquid storage bag is filled with water cooling liquid; the lower end damping spring is embedded in the liquid storage bag, and two ends of the lower end damping spring correspondingly abut against the bottom of the lower damping groove and the bottom of the upper damping groove.

Preferably, the upper end damping tube and the lower end damping tube have the same structure, the bottom surface of the upper part damping slot of the upper end damping tube is fixedly arranged on the other side surface of the protective slot, and the lower part damping slot of the upper end damping tube is sleeved on the upper part damping slot opening of the upper end damping tube; the liquid storage bag of the upper end damping tube is embedded in the upper damping groove of the upper end damping tube and the lower damping groove of the upper end damping tube, and the liquid storage bag of the upper end damping tube is filled with water cooling liquid; the upper end damping spring is embedded in the liquid storage bag of the upper end damping tube, and two ends of the upper end damping spring correspondingly abut against the bottom of the upper damping groove of the upper end damping tube and the bottom of the lower damping groove of the upper end damping tube; the right anti-seismic water cooling piece is the same as the left anti-seismic water cooling piece in structure, and the right anti-seismic water cooling piece is fastened on the other side face of the cabinet shell.

Preferably, the hovering element comprises a hovering support block, a hovering support plate and an additional installation element, the hovering support block is arranged on the left anti-seismic water cooling element and the right anti-seismic water cooling element, and the additional installation element is arranged on the hovering support plate; the hovering support block comprises a left hovering support block and a right hovering support block, a vertical sliding groove is formed in the left hovering support block, the left hovering support block is arranged in the protective groove, one side face of the left hovering support block is fixedly connected to the upper damping groove, and the other side face of the left hovering support block is fixedly connected to the bottom of the lower damping groove of the upper damping pipe; the right hovering support block and the left hovering support block are identical in structure, the right hovering support block is embedded in a protection groove of the right anti-seismic water cooling piece, the other side face of the right hovering support block is fixedly connected with a lower end damping pipe of the right anti-seismic water cooling piece, and one side face of the right hovering support block is fixedly connected with an upper end damping pipe of the right anti-seismic water cooling piece; one end of the hovering support plate penetrates through the left sliding strip through holes one by one through the left connecting blocks and is then fixedly connected with the left hovering support block; the other end of the hovering support plate penetrates through the right side connecting blocks one by one correspondingly to penetrate through the right side sliding strip-shaped through holes and then is fixedly connected with the right side hovering support block.

Preferably, add the installed part and include upside bracing piece, downside bracing piece, add the groove and add the board, the upside bracing piece with the downside bracing piece all sets up in the backup pad that hovers, it sets up to add the groove the upside bracing piece with on the downside bracing piece, it sets up to add the board add on the groove, it also is used for installing power component to add the board.

Preferably, the water cooling part comprises an upper water cooling part and a lower water cooling part, and both the upper water cooling part and the lower water cooling part are arranged on the hovering part; the upper side water cooling part comprises a first upper side water cooling part and a second upper side water cooling part, and the first upper side water cooling part and the second upper side water cooling part are both arranged on the hovering support plate; the first upper side water cooling part comprises a first upper side water cooling pipe, a first movable joint, a first hose, a second movable joint and a first upper side radiating pipe, the first upper side water cooling pipe is embedded in a first water cooling groove in the top surface of the hovering support plate, one end of the first upper side water cooling pipe penetrates through the left hovering support block and the upper end damping pipe successively and then is communicated with the liquid storage bag, and a first one-way valve is arranged at one end of the first upper side water cooling pipe; the other end of the first upper side water-cooling pipe penetrates into the vertical sliding groove of the right anti-seismic water-cooling part; the first movable joint is in a right-angle joint shape, and one end of the first movable joint is rotatably sleeved on the other end of the first upper side water-cooling pipe in a sealing manner; one end of the first hose is embedded on the other end of the first movable joint, and one end of the second movable joint is sleeved on the other end of the first hose; the first upper side radiating pipe is arranged on the protective groove of the right anti-seismic water cooling piece, and one end of the first upper side radiating pipe is rotatably and hermetically embedded on the other end of the second movable joint;

the second upper side water cooling part comprises a second upper side water cooling pipe, a third movable joint, a second hose, a fourth movable joint and a second upper side radiating pipe, the second upper side water cooling pipe is embedded in a second water cooling groove in the top surface of the hovering supporting plate, one end of the second upper side water cooling pipe penetrates through the right hovering supporting block and a damping pipe at the upper end of the right anti-seismic water cooling piece in sequence and then is communicated with a liquid storage bag of the right anti-seismic water cooling piece, and a second one-way valve is arranged at one end of the second upper side water cooling pipe; the other end of the second upper water-cooled tube penetrates into the vertical sliding groove, the third movable joint is in a right-angle joint shape, and one end of the third movable joint is rotatably and hermetically sleeved on the other end of the second upper water-cooled tube; one end of the second hose is embedded on the other end of the third movable joint, and one end of the fourth movable joint is sleeved on the other end of the second hose; the second upper side radiating pipe is arranged on the protective groove, and one end of the second upper side radiating pipe is rotatably and hermetically embedded at the other end of the fourth movable joint.

Preferably, the lower water cooling part comprises a first lower water cooling part and a second lower water cooling part, and the first lower water cooling part and the second lower water cooling part are both arranged on the hovering support plate; the first lower water-cooling component comprises a first lower water-cooling pipe, a fifth movable joint, a third hose, a sixth movable joint and a first lower radiating pipe, the first lower water-cooling pipe is embedded in a third water-cooling groove in the bottom surface of the hovering support plate, one end of the first lower water-cooling pipe penetrates through the left hovering support block and the lower end damping pipe successively and then is communicated with the liquid storage bag, a third one-way valve is arranged at one end of the first lower water-cooling pipe, and the other end of the first lower water-cooling pipe penetrates through a vertical sliding groove of the right anti-seismic water-cooling component; the fifth movable joint is in a right-angle joint shape, and one end of the fifth movable joint is rotatably sleeved on the other end of the first lower water-cooling pipe in a sealing manner; one end of the third hose is embedded on the other end of the fifth movable joint, and one end of the sixth movable joint is sleeved on the other end of the third hose; the first lower radiating pipe is arranged on the protection groove of the right anti-seismic water cooling piece, and one end of the first lower radiating pipe is rotatably and hermetically embedded at the other end of the sixth movable joint;

the second lower side water cooling part comprises a second lower side water cooling pipe, a seventh movable joint, a fourth hose, an eighth movable joint and a second lower side heat dissipation pipe, the second lower side water cooling pipe is embedded in a fourth water cooling groove in the bottom surface of the hovering support plate, one end of the second lower side water cooling pipe penetrates through the right hovering support block and a lower end damping pipe of the right anti-seismic water cooling piece in sequence and then is communicated in a liquid storage bag of the right anti-seismic water cooling piece, a fourth one-way valve is arranged at one end of the second upper side water cooling pipe, and the other end of the second lower side water cooling pipe penetrates into the vertical sliding groove; the seventh movable joint is in a right-angle joint shape, and one end of the seventh movable joint is rotatably and hermetically sleeved on the other end of the second lower side water-cooling pipe; one end of the fourth hose is embedded on the other end of the seventh movable joint, and one end of the eighth movable joint is sleeved on the other end of the fourth hose; the second lower side radiating pipe is arranged on the protective groove, and one end of the second lower side radiating pipe is rotatably and hermetically embedded at the other end of the eighth movable joint.

Preferably, the upper convection air cooling element includes an upper impeller shell, an upper impeller, first blades, an upper inflow pipe and an upper outflow pipe, the upper impeller shell is fixedly disposed on the top surface of the cabinet shell, the upper inflow pipe includes an upper first inflow pipe and an upper second inflow pipe, one end of the upper first inflow pipe is communicated with the other end of the second lower heat dissipation pipe, and the other end of the upper first inflow pipe is communicated with the upper impeller shell; one end of the upper second inflow pipe is communicated with the other end of the first lower radiating pipe, and the other end of the upper second inflow pipe is communicated with the upper impeller shell; the upper outflow pipe comprises an upper first outflow pipe 46 and the upper second outflow pipe, one end of the upper first outflow pipe 46 is connected with the upper impeller shell in a penetrating way, and the other end of the upper first outflow pipe 46 is connected with the reservoir of the upper damping pipe in a penetrating way; one end of the upper second outflow pipe is communicated with the upper impeller shell, and the other end of the upper second outflow pipe is communicated with the upper damping pipe of the right anti-seismic water cooling piece;

the lower convection air cooling part comprises a lower impeller shell, a lower impeller, second blades, a lower inflow pipe and a lower outflow pipe, the lower impeller shell is fixedly arranged on the bottom surface of the cabinet shell, the lower inflow pipe comprises a lower first inflow pipe and a lower second inflow pipe, one end of the lower first inflow pipe is communicated with the other end of the second upper radiating pipe, and the other end of the lower first inflow pipe is communicated with the lower impeller shell; one end of the lower second inflow pipe is communicated with the other end of the first upper radiating pipe, and the other end of the lower second inflow pipe is communicated with the lower impeller shell; the lower outflow pipe comprises a first lower outflow pipe and a second lower outflow pipe, one end of the first lower outflow pipe is communicated with the lower impeller shell, and the other end of the first lower outflow pipe is communicated with the liquid storage bag of the lower damping pipe; one end of the lower second outflow pipe is communicated with the lower impeller shell, and the other end of the lower second outflow pipe is communicated with the lower damping pipe of the right anti-seismic water cooling piece.

The invention at least comprises the following beneficial effects:

1) the power supply equipment with the cooling and ventilating structure has the advantages of compact structure, novel design thought, good heat dissipation effect, energy conservation and low use cost;

2) the invention relates to a power supply equipment anti-seismic water cooling piece and a convection air cooling piece with a cooling and ventilation structure, wherein the anti-seismic water cooling piece comprises a left anti-seismic water cooling piece, a right anti-seismic water cooling piece, a hovering piece and a water cooling part, the hovering piece is used for installing a power element, the hovering piece is arranged on the left anti-seismic water cooling piece and the right anti-seismic water cooling piece, the hovering piece is used for damping the power element through the left anti-seismic water cooling piece and the right anti-seismic water cooling piece, the left anti-seismic water cooling piece and the right anti-seismic water cooling piece absorb vibration force during damping so as to extrude water cooling liquid in a liquid storage bag to enter a pipeline of a cabinet body for heat absorption and temperature reduction, and the left anti-seismic water cooling piece and the right anti-seismic water cooling piece continuously extrude the left anti-seismic water cooling piece and the right anti-seismic water cooling piece to improve the convection air convection speed in the cabinet body, and further improve the temperature reduction speed of the power element.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a front view of a power supply apparatus having a cooling ventilation structure according to the present invention;

fig. 2 is a plan view of the power supply apparatus having a cooling ventilation structure of the present invention;

FIG. 3 is a schematic diagram of a left side perspective view of a power supply apparatus having a cooling and ventilating structure according to the present invention;

FIG. 4 is a schematic diagram of a right side perspective view of a power supply apparatus having a cooling and ventilating structure according to the present invention;

FIG. 5 is a schematic perspective view of a cross-section taken along the line A-A in FIG. 1, illustrating a cooling ventilation structure of the power supply apparatus according to the present invention;

fig. 6 is a front view of a section in the direction B-B in fig. 2 of the power supply apparatus having a cooling ventilation structure according to the present invention;

FIG. 7 is a left side perspective view of a section taken along the direction B-B in FIG. 2, illustrating a power supply apparatus having a cooling and ventilating structure according to the present invention;

FIG. 8 is a schematic perspective view of a right side of a section taken along the direction B-B in FIG. 2, illustrating a power supply apparatus having a cooling and ventilating structure according to the present invention;

fig. 9 is a schematic perspective view of a cross-section in the direction of C-C in fig. 2 of the power supply apparatus having a cooling ventilation structure according to the present invention;

fig. 10 is a partially enlarged view of D in fig. 9 of the power supply apparatus having a cooling ventilation structure according to the present invention;

fig. 11 is a schematic perspective view of a cross-section in the direction F-F in fig. 2 of the power supply apparatus having a cooling ventilation structure according to the present invention;

fig. 12 is a partially enlarged view of E in fig. 11 of the power supply apparatus having a cooling ventilation structure of the present invention.

Wherein: 1-cabinet shell, 2-cabinet door, 3-quick-opening lock, 4-left sliding strip through hole, 5-right sliding strip through hole, 6-protective groove, 7-lower damping tube, 8-lower damping spring, 9-upper damping tube, 10-upper damping spring, 11-hovering support plate, 12-left hovering support block, 13-right hovering support block, 14-vertical sliding groove, 15-upper side support bar, 16-lower side support bar, 17-additional groove, 18-additional plate, 19-first upper side water cooling tube, 20-first movable joint, 21-first hose, 22-second movable joint, 23-first upper side heat dissipation tube, 25-second upper side water cooling tube, 29-second upper side heat dissipation tube, 30-first lower water cooling pipe, 31-fifth movable joint, 32-third hose, 33-sixth movable joint, 34-first lower radiating pipe, 40-second lower radiating pipe, 41-upper impeller shell, 42-upper impeller, 43-first blade, 44-upper first inflow pipe, 45-upper second inflow pipe, 46-upper first outflow pipe, 47-upper second outflow pipe, 48-lower impeller shell, 50-second blade, 52-lower second inflow pipe, 54-lower second outflow pipe, and 55-power element.

Detailed Description

Technical solutions of the present invention will be described in detail below by way of embodiments with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, B exists alone, and A and B exist at the same time, and the term "/and" is used herein to describe another association object relationship, which means that two relationships may exist, for example, A/and B, may mean: a alone, and both a and B alone, and further, the character "/" in this document generally means that the former and latter associated objects are in an "or" relationship.

As shown in fig. 1 to 12, a power supply device with a cooling and ventilating structure includes a cabinet, an anti-seismic water cooling component and a convection air cooling component, both of which are disposed on the cabinet. The cabinet body includes cabinet shell 1 and cabinet door 2, and cabinet door 2 sets up on cabinet shell 1. Cabinet shell 1 is the rectangle groove form, and 2 side edges of cabinet door articulate on 1 side notch of cabinet shell, are provided with quick-open tool to lock 3 on 2 opposite sides of cabinet door, and cabinet door 2 fastens on cabinet shell 1 through quick-open tool to lock 3 to be provided with the sealing strip on cabinet door 2, the sealing strip can satisfy the dustproof and waterproof performance of the cabinet body.

Be provided with the rectangular through hole 4 of left side slip on the 1 left surface of cabinet shell, the rectangular through hole 4 vertical line of left side slip is vertically parallel with cabinet shell 1, and the rectangular through hole 4 of left side slip sets up two, and two rectangular through holes 4 of left side slip evenly distributed on 1 left surface of cabinet shell. Be provided with the rectangular through hole 5 of right side slip on the 1 right flank of cabinet shell, the rectangular through hole 5 vertical line of right side slip is vertically parallel with cabinet shell 1, and the rectangular through hole 5 of right side slip sets up two, and two rectangular through holes 5 of right side slip evenly distributed on the 1 right flank of cabinet shell.

The antidetonation water-cooling piece includes left side antidetonation water-cooling piece, right side antidetonation water-cooling piece, hovers and water cooling part, and left side antidetonation water-cooling piece and right side antidetonation water-cooling piece all set up on the cabinet body, and the setting of hovering is on left side antidetonation water-cooling piece and right side antidetonation water-cooling piece, and water cooling part sets up on the piece of hovering. Left side antidetonation water-cooling piece includes protecting bath 6, lower extreme damping tube 7, lower extreme damping spring 8, upper end damping tube 9 and upper end damping spring 10, and protecting bath 6 sets up on cabinet shell 1, and lower extreme damping tube 7 and upper end damping tube 9 all set up on protecting bath 6, and lower extreme damping spring 8 sets up on lower extreme damping tube 7, and upper end damping spring 10 sets up on upper end damping tube 9. The protective groove 6 is rectangular groove-shaped, the size of the groove bottom of the protective groove 6 is the same as that of the side face of the cabinet shell 1, and the opening of the protective groove 6 is fastened on one side face of the cabinet shell 1 through a first screw, so that the side face of the cabinet shell 1 forms a double-layer structure face.

The lower end damping tube 7 comprises a lower damping groove, an upper damping groove and a liquid storage bag, the lower damping groove is arranged in the protective groove 6, the upper damping groove is arranged on the lower damping groove, and the liquid storage bag is arranged in the lower damping groove and the upper damping groove. The lower damping groove is rectangular groove-shaped and is fixedly arranged on one side wall of the protective groove 6, so that the opening of the lower damping groove is vertically upward. The upper damping groove is rectangular groove-shaped and is buckled on the lower damping groove opening, so that the upper damping groove can vertically slide relative to the lower damping groove, and the volumes of the inner cavities of the upper damping groove and the lower damping groove are changed. The liquid storage bag is in a rectangular sealed bag shape, is embedded in the lower damping groove and the upper damping groove, and is filled with water cooling liquid. The length of the lower end damping spring 8 is not more than the sum of the depths of the upper damping groove and the lower damping groove, the lower end damping spring 8 is embedded in the liquid storage bag, and two ends of the lower end damping spring 8 correspondingly abut against the bottom of the lower damping groove and the bottom of the upper damping groove so as to support the lower damping groove and the upper damping groove.

The upper end damping tube 9 and the lower end damping tube 7 are identical in structure, the bottom surface of the upper portion damping groove of the upper end damping tube 9 is fixedly arranged on the other side surface of the protective groove 6, and the lower portion damping groove of the upper end damping tube 9 is sleeved on the upper portion damping groove opening of the upper end damping tube 9, so that the lower portion damping groove of the upper end damping tube 9 can slide along the upper portion damping groove of the upper end damping tube 9. The liquid storage bag of the upper end damping tube 9 is embedded in the upper part damping groove of the upper end damping tube 9 and the lower part damping groove of the upper end damping tube 9, and the liquid storage bag of the upper end damping tube 9 is filled with water cooling liquid. The upper end damping spring 10 has the same structure as the lower end damping spring 8. The upper end damping spring 10 is embedded in the liquid storage bag of the upper end damping tube 9, and two ends of the upper end damping spring 10 correspondingly abut against the bottom of the upper damping groove of the upper end damping tube 9 and the bottom of the lower damping groove of the upper end damping tube 9. The right anti-seismic water cooling part and the left anti-seismic water cooling part have the same structure. And the right anti-seismic water cooling piece is fastened on the other side surface of the cabinet shell 1 through a second screw.

The part of hovering is including the supporting shoe that hovers, the backup pad 11 that hovers and add the installed part, and the supporting shoe that hovers sets up on left side antidetonation water-cooling spare and right side antidetonation water-cooling spare, and the backup pad 11 that hovers sets up on the supporting shoe that hovers, adds the installed part setting and hovers on backup pad 11. The supporting shoe that hovers includes left side supporting shoe 12 and right side supporting shoe 13 that hovers, left side supporting shoe 12 that hovers is rectangular cubic, is provided with vertical sliding tray 14 on the supporting shoe 12 that hovers on the left side, and left side supporting shoe 12 that hovers sets up in protecting bath 6 to a left side supporting shoe 12 side fixed connection is on the upper portion damping slot of lower extreme damping tube 7, and another side fixed connection of supporting shoe 12 that hovers on the left side is on the lower part damping slot of upper end damping tube 9 simultaneously.

The right hover support block 13 is identical in structure to the left hover support block 12. The right hovering support block 13 is embedded in the protection groove 6 of the right anti-seismic water cooling piece, the other side face of the right hovering support block 13 is fixedly connected with the lower end damping pipe 7 of the right anti-seismic water cooling piece, and one side face of the right hovering support block 13 is fixedly connected with the upper end damping pipe 9 of the right anti-seismic water cooling piece. The hovering support plate 11 is rectangular plate-shaped, first circulation through holes are formed in the hovering support plate 11, and the thirty first circulation through holes are evenly distributed. Hover and be provided with the left side connecting block on 11 terminal surfaces of backup pad, left side connecting block length is greater than 1 side wall thickness of cabinet shell, and the left side connecting block is provided with two, two left side connecting block evenly distributed.

Hover and be provided with the right side connecting block on 11 other terminal surfaces of backup pad, right side connecting block length is greater than 1 side wall thickness of cabinet shell, and the right side connecting block is provided with two, two right side connecting block evenly distributed. One end of the hovering support plate 11 correspondingly penetrates through the two left sliding strip through holes 4 one by one through the two left connecting blocks and then is fixedly connected with the left hovering support block 12. The other end of the hovering support plate 11 correspondingly penetrates through the two right sliding strip through holes 5 one by one through the two right connecting blocks and then is fixedly connected with the right hovering support block 13. The hovering support plate 11 is used for mounting the power element 55. When the cabinet body is vibrated on the ground, the cabinet body is driven to vibrate up and down, and the cabinet body drives the lower damping groove to move upwards to extrude the water cooling liquid in the liquid storage bag to enter the cabinet body for cooling in the upward vibration process. Meanwhile, the liquid storage bag also plays a role in damping so as to further reduce the vertical vibration of the hovering support plate 11.

A first water cooling groove and a second water cooling groove are arranged on the top surface of the hovering support plate 11, one end of the first water cooling groove extends to the top surface of a left connecting block, and the other end of the first water cooling groove extends to the top surface of a right connecting block; one end of the second water cooling groove extends to the top surface of the other left connecting block, and the other end of the second water cooling groove extends to the top surface of the other right connecting block. A third water-cooling groove and a fourth water-cooling groove are arranged on the bottom surface of the hovering support plate 11, one end of the third water-cooling groove extends to the bottom surface of a left connecting block, and the other end of the third water-cooling groove extends to the bottom surface of a right connecting block; one end of the fourth water cooling groove extends to the bottom surface of the other left connecting block, and the other end of the fourth water cooling groove extends to the bottom surface of the other right connecting block.

Add the installed part and include upside bracing piece 15, downside bracing piece 16, add groove 17 and add board 18, upside bracing piece 15 and downside bracing piece 16 all set up in the backup pad 11 that hovers, add groove 17 and set up on upside bracing piece 15 and downside bracing piece 16, add board 18 and set up on adding groove 17. The vertical fixed setting of upside bracing piece 15 one end is on the backup pad 11 top surface that hovers, and upside bracing piece 15 is provided with four, and four upside bracing pieces 15 correspond the distribution one by one at backup pad 11 four corners department that hovers. One end of each lower support rod 16 is vertically and fixedly arranged on the bottom surface of the hovering support plate 11, four lower support rods 16 are arranged on each lower support rod 16, and the four lower support rods 16 are correspondingly distributed at four corners of the hovering support plate 11 one by one. Six additional grooves 17 are provided, and the six additional grooves 17 are correspondingly provided on the upper support bar 15 and the lower support bar 16. The additional plate 18 is provided with second circulation through holes, and thirty second circulation through holes are uniformly distributed. The extension plate 18 is provided with three extension plates 18, the three extension plates 18 are respectively embedded in the extension grooves 17, and the extension plates 18 are also used for installing the power elements 55.

The water cooling part comprises an upper water cooling part and a lower water cooling part, and the upper water cooling part and the lower water cooling part are both arranged on the hovering part. The upper water cooling part comprises a first upper water cooling part and a second upper water cooling part which are both arranged on the hovering support plate 11.

The first upper side water cooling part comprises a first upper side water cooling pipe 19, a first movable joint 20, a first hose 21, a second movable joint 22 and a first upper side heat dissipation pipe 23, the first upper side water cooling pipe 19 is arranged on the hovering support plate 11, the first movable joint is arranged on the first upper side water cooling pipe 19, and the first upper side heat dissipation pipe 23 is arranged on the cabinet body. First upside water-cooled tube 19 is the S-shaped, and first upside water-cooled tube 19 inlays the dress in first water-cooled tank to first upside water-cooled tube 19 one end is run through earlier and is linked together in the reservoir behind left side supporting shoe 12 and the upper end damping tube 9 of hovering, and first upside water-cooled tube 19 one end is provided with first check valve, and first check valve only permits the water-cooling liquid to flow to first upside water-cooled tube 19 by the reservoir.

The other end of the first upper side water-cooling pipe 19 penetrates into the vertical sliding groove 14 of the right anti-seismic water-cooling part, the first movable joint 20 is in a right-angle joint shape, and one end of the first movable joint 20 is rotatably sleeved on the other end of the first upper side water-cooling pipe 19 in a sealing manner. One end of the first hose 21 is embedded in the other end of the first movable joint 20, and one end of the second movable joint 22 is sleeved on the other end of the first hose 21. The first upper radiating pipe 23 is arranged on the protective groove 6 of the right anti-seismic water cooling member, and one end of the first upper radiating pipe 23 is rotatably and hermetically embedded on the other end of the second movable joint 22. When the hovering support block vibrates up and down in a reciprocating mode relative to the protective shell, the first movable joint 20 rotates in a rotary sealing mode around the other end of the first upper side water cooling pipe 19 in the vertical sliding groove 14 of the right side anti-seismic water cooling piece, and meanwhile the second movable joint 22 rotates in a rotary sealing mode around one end of the first upper side radiating pipe 23 in the vertical sliding groove 14.

The second upper side water cooling part comprises a second upper side water cooling pipe 25, a third movable joint, a second hose, a fourth movable joint and a second upper side radiating pipe 29, the second upper side water cooling pipe 25 is arranged on the hovering support plate 11, the third movable joint is arranged on the second upper side water cooling pipe 25, and the second upper side radiating pipe 29 is arranged on the cabinet body. Second upside water-cooled tube 25 is the S-shaped, and second upside water-cooled tube 25 inlays the dress in the second water-cooled tank to second upside water-cooled tube 25 one end is successively run through the upper end damping tube 9 back intercommunication at the right side antidetonation water-cooled piece of right side supporting shoe 13 and the right side antidetonation water-cooled piece of hovering, and second upside water-cooled tube 25 one end is provided with the second check valve, and the second check valve only permits water-cooled liquid to flow to second upside water-cooled tube 25 by the reservoir.

The other end of the second upper side water-cooling tube 25 penetrates into the vertical sliding groove 14, the third movable joint is in a right-angle joint shape, and one end of the third movable joint is rotatably and hermetically sleeved at the other end of the second upper side water-cooling tube 25. One end of the second hose is embedded on the other end of the third movable joint, and one end of the fourth movable joint is sleeved on the other end of the second hose. The second upper radiating pipe 29 is provided on the shield bath 6, and one end of the second upper radiating pipe 29 is rotatably and sealingly fitted on the other end of the fourth movable joint. When the hovering support block vibrates up and down reciprocally relative to the shielding shell, the third movable joint rotates around the other end of the second upper side water cooling pipe 25 in the vertical sliding groove 14 in a rotary sealing manner, and simultaneously, the fourth movable joint rotates around one end of the second upper side radiating pipe 29 in the vertical sliding groove 14 in a rotary sealing manner.

The lower side water cooling part comprises a first lower side water cooling part and a second lower side water cooling part which are both arranged on the hovering support plate 11. The first lower water-cooling component comprises a first lower water-cooling pipe 30, a fifth movable joint 31, a third hose 32, a sixth movable joint 33 and a first lower radiating pipe 34, the first lower water-cooling pipe 30 is arranged on the hovering support plate 11, the fifth movable joint 31 is arranged on the first lower water-cooling pipe 30, and the first lower radiating pipe 34 is arranged on the cabinet body. The first lower water cooling pipe 30 is S-shaped, the first lower water cooling pipe 30 is embedded in the third water cooling tank, one end of the first lower water cooling pipe 30 penetrates through the left hovering support block 12 and the lower damping pipe 7 successively and then is communicated in the liquid storage bag, a third one-way valve is arranged at one end of the first lower water cooling pipe 30, and water cooling liquid is only permitted to flow from the liquid storage bag to the first lower water cooling pipe 30 through the third one-way valve.

The other end of the first lower water-cooling pipe 30 penetrates into the vertical sliding groove 14 of the right anti-seismic water-cooling part, the fifth movable joint 31 is in a right-angle joint shape, and one end of the fifth movable joint 31 is rotatably and hermetically arranged at the other end of the first lower water-cooling pipe 30. One end of the third hose 32 is fitted to the other end of the fifth movable joint 31, and one end of the sixth movable joint 33 is fitted to the other end of the third hose 32. The first lower radiating pipe 34 is arranged on the protective groove 6 of the right anti-vibration water cooling member, and one end of the first lower radiating pipe 34 is rotatably and hermetically embedded on the other end of the sixth movable joint 33. When the hovering support block vibrates up and down in a reciprocating mode relative to the protective shell, the fifth movable joint 31 rotates around the other end of the first lower water cooling pipe 30 in the vertical sliding groove 14 of the right anti-seismic water cooling piece in a rotating and sealing mode, and meanwhile the sixth movable joint 33 rotates around one end of the first lower radiating pipe 34 in the vertical sliding groove 14 in a rotating and sealing mode.

The second downside water-cooling part comprises a second downside water-cooling pipe, a seventh movable joint, a fourth hose, an eighth movable joint and a second downside radiating pipe 40, the second downside water-cooling pipe is arranged on the hovering support plate 11, the seventh movable joint is arranged on the second downside water-cooling pipe, and the second downside radiating pipe 40 is arranged on the cabinet body. The second downside water-cooled tube is the S-shaped, and the second downside water-cooled tube inlays the dress in the fourth water-cooled tank to second downside water-cooled tube one end successively runs through behind the lower extreme damping tube 7 of right side support block 13 and the right side antidetonation water-cooled piece that hovers and communicates in the reservoir of right side antidetonation water-cooled piece, and second upside water-cooled tube 25 one end is provided with the fourth check valve, and the fourth check valve only permits water-cooled liquid to flow to second downside water-cooled tube by the reservoir.

The other end of the second lower side water-cooling tube penetrates into the vertical sliding groove 14, the seventh movable joint is in a right-angle joint shape, and one end of the seventh movable joint is rotatably sleeved on the other end of the second lower side water-cooling tube in a sealing mode. One end of the fourth hose is embedded on the other end of the seventh movable joint, and one end of the eighth movable joint is sleeved on the other end of the fourth hose. The second lower radiating pipe 40 is disposed on the protection groove 6, and one end of the second lower radiating pipe 40 is rotatably and sealingly fitted on the other end of the eighth movable joint. When the hovering support block vibrates up and down in a reciprocating manner relative to the protective shell, the seventh movable joint rotates around the other end of the second lower side water cooling pipe in the vertical sliding groove 14 in a rotary sealing manner, and meanwhile, the eighth movable joint rotates around one end of the second lower side radiating pipe 40 in the vertical sliding groove 14 in a rotary sealing manner.

The convection air cooling piece comprises an upper convection air cooling piece and a lower convection air cooling piece, and the upper convection air cooling piece and the lower convection air cooling piece are both arranged on the cabinet shell 1. The upper convection air-cooling member includes an upper impeller shell 41, an upper impeller 42, first blades 43, an upper inflow pipe and an upper outflow pipe, the upper impeller shell 41, the upper inflow pipe and the upper outflow pipe are all disposed on the cabinet housing 1, the upper impeller 42 is disposed on the upper impeller shell 41, and the first blades 43 are disposed on the upper impeller 42. The angle at which the first vane 43 is disposed on the rotational axis of the upper impeller 42 can promote the air in the cabinet to flow from the lower portion to the upper portion.

The upper impeller shell 41 is fixedly arranged at the center of the top surface of the cabinet shell 1, the upper inflow pipe comprises an upper first inflow pipe 44 and an upper second inflow pipe 45, one end of the upper first inflow pipe 44 is communicated with the other end of the second lower radiating pipe 40, the other end of the upper first inflow pipe 44 is communicated with the upper impeller shell 41, the other end of the upper first inflow pipe 44 is provided with a fifth one-way valve, and the fifth one-way valve only permits the water-cooling liquid to flow to the upper impeller shell 41 to push the upper impeller 42 to rotate; one end of the upper second inflow pipe 45 is communicated with the other end of the first lower radiating pipe 34, the other end of the upper second inflow pipe 45 is communicated with the upper impeller shell 41, and the other end of the upper second inflow pipe 45 is provided with a sixth one-way valve which only permits the flow of the water-cooling liquid to the upper impeller shell 41 to push the upper impeller 42 to rotate; the upper outflow pipe comprises an upper first outflow pipe 46 and an upper second outflow pipe 47, one end of the upper first outflow pipe 46 is connected with the upper impeller shell 41 in a penetrating way, and the other end of the upper first outflow pipe is connected with the liquid storage bag of the upper damping pipe 9 in a penetrating way. One end of the upper second outflow pipe 47 is connected with the upper impeller shell 41 in a penetrating way, and the other end of the upper second outflow pipe 47 is connected with the upper damping pipe 9 of the right anti-seismic water cooling piece in a penetrating way.

The lower convection air-cooling part comprises a lower impeller shell 48, a lower impeller, second blades 50, a lower inflow pipe and a lower outflow pipe, wherein the lower impeller shell 48, the lower inflow pipe and the lower outflow pipe are all arranged on the cabinet shell 1, the lower impeller is arranged on the lower impeller shell 48, and the second blades 50 are arranged on the lower impeller. The angle at which the second vane 50 is disposed on the rotation axis of the lower impeller can promote the air in the cabinet to flow from the lower portion to the upper portion.

The lower impeller shell 48 is fixedly arranged at the center of the bottom surface of the cabinet shell 1, the lower inflow pipe comprises a lower first inflow pipe and a lower second inflow pipe 52, one end of the lower first inflow pipe is communicated with the other end of the second upper radiating pipe 29, the other end of the lower first inflow pipe is communicated with the lower impeller shell 48, the other end of the lower first inflow pipe is provided with a seventh one-way valve, and the seventh one-way valve only permits water-cooling liquid to flow to the upper impeller shell 41 so as to push the lower impeller to rotate; one end of the lower second inflow pipe 52 is communicated with the other end of the first upper radiating pipe 23, the other end of the lower second inflow pipe 52 is communicated with the lower impeller shell 48, and the other end of the lower second inflow pipe 52 is provided with an eighth check valve which only permits the flow of the water-cooling liquid to the lower impeller shell 48 to push the lower impeller to rotate. The lower outflow pipe comprises a lower first outflow pipe and a lower second outflow pipe 54, one end of the lower first outflow pipe is connected with the lower impeller shell 48 in a penetrating way, and the other end of the lower first outflow pipe is connected with the liquid storage bag of the lower damping pipe 7 in a penetrating way. One end of the lower second outflow pipe 54 is connected with the lower impeller shell 48 in a penetrating way, and the other end of the lower second outflow pipe 54 is connected with the lower damping pipe 7 of the right anti-seismic water cooling piece in a penetrating way.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. A power supply apparatus having a cooling ventilation structure, characterized by comprising:

the anti-seismic water cooling part comprises a left anti-seismic water cooling part, a right anti-seismic water cooling part, a hovering part and a water cooling part, wherein the left anti-seismic water cooling part and the right anti-seismic water cooling part are both arranged on the cabinet body, the hovering part is arranged on the left anti-seismic water cooling part and the right anti-seismic water cooling part, and the water cooling part is arranged on the hovering part;

the convection air cooling piece comprises an upper convection air cooling piece and a lower convection air cooling piece, and the upper convection air cooling piece and the lower convection air cooling piece are both arranged on the cabinet body;

wherein: through left side antidetonation water-cooling piece with right side antidetonation water-cooling piece is right the power component shock attenuation on the piece of hovering, in the shock attenuation in-process get into the water-cooling liquid extrudees and gets into carry out the water-cooling in the cabinet body pipeline, extrudees into the water-cooling liquid simultaneously promote in the convection current air-cooling piece air convection in the cabinet body.

2. The power supply equipment with the cooling and ventilating structure as claimed in claim 1, wherein the cabinet body comprises a cabinet shell, a left side sliding strip through hole is formed in the left side surface of the cabinet shell, and a plurality of the left side sliding strip through holes are uniformly distributed in the left side surface of the cabinet shell; be provided with the rectangular through hole of right side slip on the cabinet shell right flank, it is a plurality of the rectangular through hole of right side slip is in evenly distributed on the cabinet shell right flank.

3. The power supply equipment with the cooling and ventilating structure as set forth in claim 2, wherein said left side anti-seismic water cooling member comprises a protection groove, a lower end damping tube, a lower end damping spring, an upper end damping tube and an upper end damping spring, said protection groove is in the shape of a rectangular groove, and said protection groove opening is fastened on one side surface of said cabinet shell.

4. The power supply apparatus with a cooling and ventilating structure as set forth in claim 3, wherein the lower damping pipe includes a lower damping groove having a rectangular groove shape, an upper damping groove fixedly provided on one side wall of the protection groove, and a reservoir bag having a rectangular sealed bag shape and filled with a water-cooling liquid, the upper damping groove being fastened to the lower damping groove opening, the reservoir bag being fitted in the lower damping groove and the upper damping groove; the lower end damping spring is embedded in the liquid storage bag, and two ends of the lower end damping spring correspondingly abut against the bottom of the lower damping groove and the bottom of the upper damping groove.

5. The power supply apparatus with a cooling ventilation structure according to claim 4, wherein the upper damper pipe has the same structure as the lower damper pipe, and the bottom surface of the upper damper pipe is fixedly disposed on the other side surface of the shield bath; the right anti-seismic water cooling piece is the same as the left anti-seismic water cooling piece in structure, and the right anti-seismic water cooling piece is fastened on the other side face of the cabinet shell.

6. The power supply apparatus with a cooling ventilation structure according to claim 5, wherein the hovering member includes a hovering support block provided on the left side anti-seismic water cooling member and the right side anti-seismic water cooling member, a hovering support plate, and an additional installation member provided on the hovering support plate; the hovering support block comprises a left hovering support block and a right hovering support block, a vertical sliding groove is formed in the left hovering support block, the left hovering support block is arranged in the protective groove, one side face of the left hovering support block is fixedly connected to the upper damping groove of the lower end damping pipe, and the other side face of the left hovering support block is fixedly connected to the bottom of the lower damping groove of the upper end damping pipe; the right hovering support block and the left hovering support block are identical in structure; one end of the hovering support plate penetrates through the left sliding strip through holes one by one through a left connecting block and then is fixedly connected with the left hovering support block; the support plate that hovers other end corresponds one by one through the right side connecting block that sets up and passes a plurality of behind the rectangular through hole of right side slip with the support block fixed connection hovers on the right side.

7. The power supply apparatus with a cooling and ventilating structure according to claim 6, wherein the additional installation member includes an upper support rod, a lower support rod, an additional groove, and an additional plate, the upper support rod and the lower support rod are both provided on the hovering support plate, the additional groove is provided on the upper support rod and the lower support rod, the additional plate is provided on the additional groove, and the additional plate is also used for installing a power element.

8. The power supply apparatus with a cooling ventilation structure according to claim 7, wherein the water cooling part includes an upper side water cooling part and a lower side water cooling part, both of which are provided on the hovering part; the upper side water cooling part comprises a first upper side water cooling part and a second upper side water cooling part, and the first upper side water cooling part and the second upper side water cooling part are both arranged on the hovering support plate; the first upper side water cooling part comprises a first upper side water cooling pipe, a first movable joint, a first hose, a second movable joint and a first upper side radiating pipe, the first upper side water cooling pipe is embedded in a first water cooling groove in the top surface of the hovering supporting plate, one end of the first upper side water cooling pipe penetrates through the left hovering supporting block and the upper end damping pipe successively and then is communicated with a liquid storage bag of the left anti-seismic water cooling part, and a first check valve is arranged at one end of the first upper side water cooling pipe; the other end of the first upper side water-cooling pipe penetrates into the vertical sliding groove of the right anti-seismic water-cooling part; the first movable joint is in a right-angle joint shape, and one end of the first movable joint is rotatably sleeved on the other end of the first upper side water-cooling pipe in a sealing manner; one end of the first hose is embedded on the other end of the first movable joint, and one end of the second movable joint is sleeved on the other end of the first hose; the first upper side radiating pipe is arranged on the protective groove of the right anti-seismic water cooling piece, and one end of the first upper side radiating pipe is rotatably and hermetically embedded on the other end of the second movable joint;

the second upper side water cooling part comprises a second upper side water cooling pipe, a third movable joint, a second hose, a fourth movable joint and a second upper side radiating pipe.

9. The power supply apparatus with a cooling ventilation structure according to claim 8, wherein the lower water cooling part includes a first lower water cooling part and a second lower water cooling part, both of which are provided on the hovering support plate; the first lower water-cooling component comprises a first lower water-cooling pipe, a fifth movable joint, a third hose, a sixth movable joint and a first lower radiating pipe, the first lower water-cooling pipe is embedded in a third water-cooling groove in the bottom surface of the hovering support plate, one end of the first lower water-cooling pipe penetrates through the left hovering support block and the lower end damping pipe in sequence and then is communicated with a liquid storage bag of the left anti-seismic water-cooling component, a third one-way valve is arranged at one end of the first lower water-cooling pipe, and the other end of the first lower water-cooling pipe penetrates through a vertical sliding groove of the right anti-seismic water-cooling component; the fifth movable joint is in a right-angle joint shape, and one end of the fifth movable joint is rotatably sleeved on the other end of the first lower water-cooling pipe in a sealing manner; one end of the third hose is embedded on the other end of the fifth movable joint, and one end of the sixth movable joint is sleeved on the other end of the third hose; the first lower radiating pipe is arranged on the protection groove of the right anti-seismic water cooling piece, and one end of the first lower radiating pipe is rotatably and hermetically embedded at the other end of the sixth movable joint;

the second lower water cooling part comprises a second lower water cooling pipe, a seventh movable joint, a fourth hose, an eighth movable joint and a second lower radiating pipe.

10. The power supply apparatus having a cooling and ventilating structure as set forth in claim 9, wherein the upper convection air-cooling member includes an upper impeller housing fixedly provided on the top surface of the cabinet housing, an upper impeller, a first vane, an upper inflow pipe and an upper outflow pipe, the upper inflow pipe includes an upper first inflow pipe and an upper second inflow pipe, one end of the upper first inflow pipe is communicated with the other end of the second lower radiating pipe, and the other end of the upper first inflow pipe is communicated with the upper impeller housing; one end of the upper second inflow pipe is communicated with the other end of the first lower radiating pipe, and the other end of the upper second inflow pipe is communicated with the upper impeller shell; the upper outflow pipe comprises an upper first outflow pipe and an upper second outflow pipe, one end of the upper first outflow pipe is communicated with the upper impeller shell, and the other end of the upper first outflow pipe is communicated with the liquid storage bag of the upper damping pipe; one end of the upper second outflow pipe is communicated with the upper impeller shell, and the other end of the upper second outflow pipe is communicated with the upper damping pipe of the right anti-seismic water cooling piece;

the lower convection air cooling element includes a lower impeller shell, a lower impeller, second blades, a lower inflow pipe, and a lower outflow pipe.

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