CN114093600B - Pressure compensation type underwater transformer - Google Patents

Abstract

The invention discloses a pressure compensation type underwater transformer which comprises a transformer main body, wherein the left side and the right side of the transformer main body are fixedly connected with transmission assemblies, the inner sides of the transmission assemblies are movably provided with cleaning assemblies, the left side and the right side above the transformer main body are fixedly connected with expelling assemblies, each expelling assembly comprises a fixed block, the inner sides of the fixed blocks are movably provided with swinging blocks, and the left sides of the swinging blocks are fixedly connected with first springs. This pressure compensation formula is transformer under water drives the swing piece in the outside and the inboard ratchet groove of fixed block contacts when carrying out the pivoted through the turning block, drives the swing piece through reverse effort and carries out the swing back and forth in the arc wall, then the swing piece drives the connecting rod rather than fixed connection and rotates for the connecting rod drives the actuating lever synchronous rotation, and this structure has reached and has driven away biology, prevent that the leakproofness from causing certain harm and prevent that the inner assembly from producing the certain effect of rocking.

Description

Pressure compensation type underwater transformer

Technical Field

The invention relates to the technical field of transformers, in particular to a pressure compensation type underwater transformer.

Background

The power transformer is a device for changing an alternating voltage with a certain value into another voltage with the same frequency or a plurality of voltages with different values, the environment of the transformer is different, the equipped devices of the transformer are also different, and when facing an underwater environment, an underwater transformer is correspondingly generated.

Most of underwater transformers in the current market are provided with pressure compensators due to the fact that the pressure compensators are arranged under water, the surface of each general pressure compensator is provided with ripples, a large amount of soil impurities can be accumulated in grooves of the ripples under water for a long time, so that certain damage can be caused to the pressure compensators, and the normal work of the pressure compensators can be influenced The tightness causes certain damage and certain shaking to the internal components.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide a pressure compensation type underwater transformer to solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a pressure compensation formula is transformer under water, includes transformer main body, the equal fixedly connected with transmission assembly in the left and right sides of transformer main body, transmission assembly's inboard movable mounting has the clearance subassembly, and the subassembly is driven away to the equal fixedly connected with in the top left and right sides of transformer main body, drives away the subassembly and includes the fixed block, and the inboard movable mounting of fixed block has the swing piece, the first spring of left side fixedly connected with of swing piece, the upside fixedly connected with power component of transmission assembly.

Further, the transmission assembly comprises a connecting column fixedly connected with the transformer main body, a fan-shaped block is fixedly connected to the right side of the connecting column, a large amount of soil impurities are accumulated on the pressure compensator when the computer system detects that the pressure compensator is used, the computer system sends a signal to start the motor to drive the first rotating rod to rotate, then the first rotating rod drives the first fan blade fixedly connected with the first rotating rod to rotate synchronously, so that water flow is driven to flow downwards, and then the water flow flows into the fan-shaped block.

The sector blocks are uniformly arranged in an annular mode about the circle centers of the sector blocks, the sector blocks are fixedly connected through the connecting pipes, the inner side faces of the sector blocks are provided with drain holes uniformly arranged in an array mode, the sector blocks are fixedly connected through the connecting pipes, water flows into the sector blocks on four sides, then the drain holes formed in the sector blocks flow out outwards, and the structure achieves the effect of achieving all-dimensional acceleration of inward flowing of the water flows.

And the hole shape of the drain hole is inclined, and the water flow flows outwards at a certain angle through the inclined hole shape of the drain hole, so that the effect of pushing the baffle to rotate is achieved.

Further, the clearance subassembly include with transformer main part fixed connection's pressure compensator, pressure compensator's outside sliding connection has the clearance piece, the upside fixedly connected with baffle of clearance piece, clearance piece and baffle are evenly set up about the pressure compensator annular, and through arc connecting block looks fixed connection between the clearance piece, the effect that the baffle passes through the arc connecting block drives the clearance piece of whole circle and carries out the annular rotation, thereby clear up the earth impurity in the pressure compensator recess, this structure has reached and can pile up earth impurity in the pressure compensator recess and clear up, prevent to cause certain harm and prevent to influence the effect of the normal work of pressure compensator to the pressure compensator.

Through the ripple looks adaptation on clearance piece and the pressure compensator for the clearance piece can be cleared up the impurity in the pressure compensator recess when rotating.

Further, driving away the subassembly and including the fixed block, the inboard movable mounting of fixed block has the swing piece, the first spring of left side fixedly connected with of swing piece, the inboard rotation of swing piece is connected with the turning block, has seted up on the turning block with swing the corresponding arc wall of piece, drives the swing piece in the outside and contacts with the inboard ratchet groove of fixed block when the turning block carries out the pivoted, drives swing piece through reverse effort and carries out the swing back and forth in the arc wall, then swing piece drives and rotates rather than fixed connection's connecting rod.

The outer side of the swing block is provided with a fixed block, the fixed block is provided with a ratchet groove corresponding to the swing block, and the swing block can swing back and forth in the arc groove by arranging the arc groove corresponding to the swing block, so that the effect of driving the connecting rod fixedly connected with the swing block to rotate is achieved.

Further, the left side fixedly connected with connecting rod of swing piece, the connecting rod drives the actuating lever synchronous revolution to stir on a large scale the rivers of upside, this structure has reached and can drive away the biology, prevent that the leakproofness from causing certain harm and prevent that the inner assembly from producing the effect of certain rocking.

The left side fixedly connected with actuating lever of connecting rod, swing piece, first spring, connecting rod and actuating lever all evenly set up about the turning block annular array, all evenly set up about the turning block annular array through above part for its motion is the annular range, thereby reaches the increase motion effect.

Furthermore, power component include with a sector fixed connection's a transition section of thick bamboo, the connector of a transition section of thick bamboo is located the central point of sector and puts, and the inside wall of a transition section of thick bamboo is seted up the perpendicular groove of whole circle, sets up the perpendicular groove of whole circle through the inside wall of a transition section of thick bamboo for rivers can carry out rail motion according to the groove along outward when the downward flow, thereby reach the effect that improves the velocity of flow.

Further, the inboard fixedly connected with motor of a transition section of thick bamboo, the downside of motor is rotated and is connected with first dwang, the first flabellum of downside fixedly connected with of first dwang, when first flabellum drove rivers downward flow, through the effect that rivers flow fast downwards, thereby drive the second flabellum and rotate, then the second flabellum drives the second dwang rather than fixed connection and rotates in step, make the second dwang drive the turning block that is located central point and puts and rotate in step, this structure has reached the purpose that reduces energy resource consumption.

Further, the downside of first flabellum and the inboard movable mounting who passes through a section of thick bamboo have the second flabellum, the left side fixedly connected with second dwang of second flabellum, and the second flabellum sets up about second dwang bilateral symmetry, and set up on the transition section of thick bamboo with the aperture of second dwang looks adaptation, through and set up on the transition section of thick bamboo with the aperture of second dwang looks adaptation for a transition section of thick bamboo can not outwards flow when carrying out the pivoted water in the transition section of thick bamboo.

(III) advantageous effects

Compared with the prior art, the invention provides a pressure compensation type underwater transformer, which has the following beneficial effects:

1. this pressure compensation formula is transformer under water, send signal starter motor through the computer system and drive first rotation pole and rotate, then first rotation pole drive rather than fixed connection's first flabellum synchronous rotation, thereby drive rivers downward flow, then rivers flow in the fan-shaped piece, because the fan-shaped piece passes through the connecting pipe and fixes linking to each other, make rivers flow in the fan-shaped piece of four sides, then flow out through the wash port of seting up in the fan-shaped piece, this structure has reached the effect that realizes all-round acceleration rivers inward flow.

2. This pressure compensation formula is transformer under water, wash port and wash port through seting up evenly distributed on the segment are the tilt state, be inclination with the baffle when making rivers outwards flow, thereby produce a rotatory thrust to the baffle, make the baffle drive the clearance piece of whole circle through the effect of arc connecting block and carry out the annular rotation, thereby clear up the earth impurity in the pressure compensator recess, this structure has reached and can pile up earth impurity in the pressure compensator recess and clear up, prevent to cause certain harm and prevent to influence the effect of the normal work of pressure compensator to the pressure compensator.

3. This pressure compensation formula is transformer under water, when driving rivers downward flow through first flabellum, through the effect that rivers flow fast downwards to drive the second flabellum and rotate, then the second flabellum drives the second dwang rather than fixed connection and carries out synchronous rotation, makes the second dwang drive the turning block that is located central point and puts and carry out synchronous rotation, and this structure has reached the purpose that reduces energy resource consumption.

4. This pressure compensation formula is transformer under water, carry out the pivoted while through the turning block and drive the swing piece in the outside and the inboard ratchet groove of fixed block and contact, drive the swing piece through reverse effort and carry out the swing back and forth in the arc wall, then the swing piece drives the connecting rod rather than fixed connection and rotates, make the connecting rod drive the actuating lever synchronous rotation, thereby stir on a large scale the rivers of upside, this structure has reached and has driven away the biology, prevent that the leakproofness from causing certain harm and prevent that the inside components from producing the certain effect of rocking.

Drawings

FIG. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a perspective view of the power assembly of the present invention;

fig. 3 is a schematic structural view of the dislodging assembly of the present invention;

FIG. 4 is a schematic structural diagram of a transfer module according to the present invention;

FIG. 5 is a schematic view of the cleaning assembly of the present invention;

FIG. 6 is a schematic view of a drainage hole according to the present invention;

FIG. 7 is a schematic plan view of a segment of the present invention;

fig. 8 is a schematic plan view of the transition cylinder of the present invention.

In the figure: 1. a transformer body; 2. a transmission assembly; 21. connecting columns; 22. a sector block; 23. a connecting pipe; 24. a drain hole; 3. cleaning the assembly; 31. a pressure compensator; 32. cleaning the block; 33. a baffle plate; 34. an arc-shaped connecting block; 4. a dislodging component; 41. a fixed block; 42. a swing block; 43. a first spring; 44. rotating the block; 45. a connecting rod; 46. a drive rod; 47. a ratchet groove; 48. an arc-shaped slot; 5. a power assembly; 51. a first fan blade; 52. a first rotating lever; 53. a motor; 54. a transition cylinder; 55. a vertical slot; 56. a second fan blade; 57. a second rotating rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-8, a pressure compensation type underwater transformer includes a transformer body 1, transmission components 2 are fixedly connected to both left and right sides of the transformer body 1, a cleaning component 3 is movably mounted on an inner side of the transmission components 2, expelling components 4 are fixedly connected to both left and right sides of an upper portion of the transformer body 1, the expelling components 4 include a fixed block 41, an oscillating block 42 is movably mounted on an inner side of the fixed block 41, a first spring 43 is fixedly connected to a left side of the oscillating block 42, and a power component 5 is fixedly connected to an upper side of the transmission components 2.

Further, transmission assembly 2 includes spliced pole 21 with transformer main part 1 fixed connection, and the right side fixedly connected with quadrant 22 of spliced pole 21, detects when the computer system has piled up a large amount of earth impurity on pressure compensator 31 for computer system signals starter motor 53 drives first rotation pole 52 and rotates, then first rotation pole 52 drives the synchronous rotation of first flabellum 51 rather than fixed connection, thereby drives rivers downward flow, then rivers flow in quadrant 22.

The fan-shaped blocks 22 are uniformly arranged in an annular shape about the circle center of the fan-shaped blocks, the fan-shaped blocks 22 are fixedly connected through the connecting pipes 23, the inner side surfaces of the fan-shaped blocks 22 are provided with the drain holes 24 uniformly arranged in an array, and because the fan-shaped blocks 22 are fixedly connected through the connecting pipes 23, water flows into the fan-shaped blocks 22 on four sides and then flows out through the drain holes 24 arranged in the fan-shaped blocks 22, and the structure achieves the effect of accelerating the inward flow of the water flows in an all-round manner.

The hole shape of the drain hole 24 is inclined, and the water flow flows outwards at a certain angle through the inclined hole shape of the drain hole 24, so that the effect of pushing the baffle 33 to rotate is achieved.

Further, clearance subassembly 3 includes pressure compensator 31 with 1 fixed connection of transformer main part, pressure compensator 31's outside sliding connection has clearance piece 32, clearance piece 32's upside fixedly connected with baffle 33, clearance piece 32 and baffle 33 evenly set up about pressure compensator 31 annular, and through arc connecting block 34 looks fixed connection between the clearance piece 32, baffle 33 drives the clearance piece 32 of whole circle through the effect of arc connecting block 34 and carries out the annular rotation, thereby clear up the earth impurity in the 31 recess of pressure compensator, this structure has reached and can pile up earth impurity in the 31 recess of pressure compensator and clear up, prevent to cause certain harm and prevent to influence the effect of pressure compensator's normal work to pressure compensator.

The cleaning block 32 is adapted to the corrugation on the pressure compensator 31, so that the cleaning block 32 can clean impurities in the groove of the pressure compensator 31 while rotating.

Further, the expelling assembly 4 includes a fixed block 41, an oscillating block 42 is movably mounted on the inner side of the fixed block 41, a first spring 43 is fixedly connected to the left side of the oscillating block 42, a rotating block 44 is rotatably connected to the inner side of the oscillating block 42, an arc-shaped groove 48 corresponding to the oscillating block 42 is formed in the rotating block 44, the rotating block 44 rotates while driving the oscillating block 42 on the outer side to contact with a ratchet groove 47 on the inner side of the fixed block 41, the oscillating block 42 is driven to oscillate back and forth in the arc-shaped groove 48 by a reverse acting force, and then the oscillating block 42 drives a connecting rod 45 fixedly connected with the oscillating block 42 to rotate.

The outer side of the swing block 42 is provided with a fixed block 41, the fixed block 41 is provided with a ratchet groove 47 corresponding to the swing block 42, and the swing block 42 can swing back and forth in the arc groove 48 by being provided with an arc groove 48 corresponding to the swing block 42, so that the effect of driving the connecting rod 45 fixedly connected with the swing block to rotate is achieved.

Further, the left side fixedly connected with connecting rod 45 of swinging block 42, connecting rod 45 drive actuating lever 46 synchronous revolution to stir on a large scale the rivers of upside, this structure has reached and has driven away the biology, has prevented that the leakproofness from causing certain harm and prevent that the inner assembly from producing certain effect of rocking.

The left side fixedly connected with actuating lever 46 of connecting rod 45, swing piece 42, first spring 43, connecting rod 45 and actuating lever 46 all evenly set up about the rotating block 44 annular array, all evenly set up about the rotating block 44 annular array through above part for its motion is the annular range, thereby reaches the increase motion effect.

Further, power component 5 includes a transition section of thick bamboo 54 with segment 22 fixed connection, and the connector of a transition section of thick bamboo 54 is located the central point of segment 22, and the inside wall of a transition section of thick bamboo 54 is seted up whole circle and is erected groove 55, sets up whole circle and erect groove 55 through the inside wall of a transition section of thick bamboo 54 for rivers can carry out the rail motion according to the groove in the outer edge when flowing downwards, thereby reach the effect that improves the velocity of flow.

Further, the inboard fixedly connected with motor 53 of a transition section of thick bamboo 54, the downside of motor 53 is rotated and is connected with first dwang 52, the first flabellum 51 of downside fixedly connected with of first dwang 52, when first flabellum 51 drives rivers downward flow, through the effect of rivers quick flow downwards, thereby drive second flabellum 56 and rotate, then second flabellum 56 drives second dwang 57 rather than fixed connection and carries out synchronous rotation, make second dwang 57 drive the turning block 44 that is located central point and puts and carry out synchronous rotation, this structure has reached the purpose that reduces energy consumption.

Further, the downside of first flabellum 51 and the inboard movable mounting who passes through a section of thick bamboo 54 has second flabellum 56, the left side fixedly connected with second dwang 57 of second flabellum 56, and second flabellum 56 sets up about second dwang 57 bilateral symmetry, and set up the aperture with second dwang 57 looks adaptation on the transition section of thick bamboo 54, through and set up the aperture with second dwang 57 looks adaptation on the transition section of thick bamboo 54, make transition section of thick bamboo 54 can not outwards flow when carrying out the pivoted water in the transition section of thick bamboo 54.

The specific use mode and function of the embodiment are as follows:

when the transformer is used, firstly, the transformer body 1 normally works underwater, when a computer system detects that a large amount of soil impurities are accumulated on the pressure compensator 31, the computer system sends a signal to start the motor 53 to drive the first rotating rod 52 to rotate, then the first rotating rod 52 drives the first fan blade 51 fixedly connected with the first rotating rod to synchronously rotate, so that water flow is driven to flow downwards, then the water flow flows into the fan-shaped blocks 22, the fan-shaped blocks 22 are fixedly connected through the connecting pipes 23, so that the water flow flows into the fan-shaped blocks 22 on four sides, and then flows outwards through the water discharge holes 24 formed in the fan-shaped blocks 22, and the structure achieves the effect of accelerating the inward flow of the water flow in all directions.

Further, because the last wash port 24 and the wash port 24 of seting up evenly distributed of segment 22 are the tilt state, be inclination with baffle 33 when making rivers outwards flow, thereby produce a rotatory thrust to baffle 33, make baffle 33 drive the clearance piece 32 of whole circle through the effect of arc connecting block 34 and carry out the annular rotation, thereby clear up the earth impurity in the pressure compensator 31 recess, this structure has reached and can pile up earth impurity in the pressure compensator 31 recess and clear up, prevent to cause certain harm and prevent to influence the effect of pressure compensator's normal work to pressure compensator.

Further, when the first fan blade 51 drives the water flow to flow downwards, the water flow rapidly flows downwards, so as to drive the second fan blade 56 to rotate, then the second fan blade 56 drives the second rotating rod 57 fixedly connected with the second fan blade to rotate synchronously, so that the second rotating rod 57 drives the rotating block 44 located at the central position to rotate synchronously, and the structure achieves the purpose of reducing energy consumption.

Further, it contacts with the inboard ratchet groove 47 of fixed block 41 to drive the swing piece 42 in the outside when turning block 44 carries out the pivoted, drive swing piece 42 through reverse effort and carry out the swing back and forth in arc groove 48, then swing piece 42 drives rather than fixed connection's connecting rod 45 and rotates, make connecting rod 45 drive actuating lever 46 synchronous rotation, thereby stir on a large scale the rivers of upside, this structure has reached and has driven away the biology, prevent that the leakproofness from causing certain harm and prevent that the inner assembly from producing the effect of certain rocking.

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

Claims (3)

1. A pressure compensated underwater transformer, comprising a transformer body (1), characterized in that: the left side and the right side of the transformer main body (1) are fixedly connected with transmission assemblies (2), the inner sides of the transmission assemblies (2) are movably provided with cleaning assemblies (3), the left side and the right side above the transformer main body (1) are fixedly connected with expelling assemblies (4), and the upper sides of the transmission assemblies (2) are fixedly connected with power assemblies (5);

the transmission assembly (2) comprises a connecting column (21) fixedly connected with the transformer main body (1), the right side of the connecting column (21) is fixedly connected with fan-shaped blocks (22), the fan-shaped blocks (22) are uniformly arranged in an annular mode relative to the circle center of the fan-shaped blocks, the fan-shaped blocks (22) are fixedly connected through connecting pipes (23), drainage holes (24) uniformly arranged in an array are formed in the inner side face of each fan-shaped block (22), and the holes of the drainage holes (24) are inclined;

the cleaning assembly (3) comprises a pressure compensator (31) fixedly connected with the transformer main body (1), the outer side of the pressure compensator (31) is connected with a cleaning block (32) in a sliding mode, the upper side of the cleaning block (32) is fixedly connected with a baffle (33), the cleaning block (32) and the baffle (33) are uniformly arranged in an annular mode relative to the pressure compensator (31), and the cleaning blocks (32) are fixedly connected through arc-shaped connecting blocks (34);

the power assembly (5) comprises a transition cylinder (54) fixedly connected with the fan-shaped block (22), a connecting port of the transition cylinder (54) is positioned at the center of the fan-shaped block (22), and the inner side wall of the transition cylinder (54) is provided with a whole circle of vertical grooves (55);

the inner side of the transition cylinder (54) is fixedly connected with a motor (53), the lower side of the motor (53) is rotatably connected with a first rotating rod (52), and the lower side of the first rotating rod (52) is fixedly connected with a first fan blade (51);

the downside of first flabellum (51) and at the inboard movable mounting of a transition section of thick bamboo (54) have second flabellum (56), the left side fixedly connected with second dwang (57) of second flabellum (56), and second flabellum (56) set up about second dwang (57) bilateral symmetry, and set up the aperture with second dwang (57) looks adaptation on a transition section of thick bamboo (54).

2. The pressure compensated underwater transformer of claim 1, wherein: the expelling assembly (4) comprises a fixed block (41), a swinging block (42) is movably mounted on the inner side of the fixed block (41), a first spring (43) is fixedly connected to the left side of the swinging block (42), a rotating block (44) is rotatably connected to the inner side of the swinging block (42), an arc-shaped groove (48) corresponding to the swinging block (42) is formed in the rotating block (44), the fixed block (41) is arranged on the outer side of the swinging block (42), and a ratchet groove (47) corresponding to the swinging block (42) is formed in the fixed block (41).

3. A pressure compensated underwater transformer as claimed in claim 2 in which: the swing block (42) is characterized in that a connecting rod (45) is fixedly connected to the left side of the swing block (42), a driving rod (46) is fixedly connected to the left side of the connecting rod (45), and the swing block (42), the first spring (43), the connecting rod (45) and the driving rod (46) are all uniformly arranged in relation to the rotating block (44) in an annular array mode.

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