CN111502917B

CN111502917B - Turbine power generation equipment

Info

Publication number: CN111502917B
Application number: CN202010323563.XA
Authority: CN
Inventors: 陈国荣
Original assignee: Xinchang Xing'ou Intelligent Technology Co ltd
Current assignee: XINCHANG XING'OU INTELLIGENT TECHNOLOGY Co.,Ltd.
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2021-05-07
Anticipated expiration: 2040-04-22
Also published as: CN112963308A; CN111502917A

Abstract

The invention discloses turbine power generation equipment which structurally comprises a generator, a turbine mechanism, a ventilation port, a base and an electric connection box, wherein the turbine mechanism is fixedly embedded at the right end of the generator, the base is welded at the bottom of the generator, the electric connection box is arranged at the upper end of the generator, the ventilation port and the turbine mechanism are integrated, when the turbine mechanism stops working, a swinging plate on the ventilation port can recover to be in a closed state, so that the sea wind is resisted at the outer surface of the swinging plate, thereby the sea wind brings the sea salt buckets to be intensively attached to the outer surface of the swinging plate, the open-close plates on the protective surface can be folded and closed by the extrusion of the protective surface when the linkage plate slides forwards, thereby make the transfer line on the protection face can follow the open-close board and carry out synchronous closure, and the connecting rod that makes and be connected with the transfer line can drive the sliding block and strike off the adnexed sea salt of open-close board inboard.

Description

Turbine power generation equipment

Technical Field

The invention relates to the field of power generation equipment, in particular to turbine power generation equipment.

Background

The turbine generator mainly rotates at a high speed through the internal rotating turbine, and then converts the capacity generated by the rotation of the rotating turbine into electric energy by matching with the internal energy converter, so that the turbine generator can provide operating energy for electric equipment, and is common equipment in life.

Because turbine generator's inside rotatory turbine link up with the external world all the time, lead to being used for turbine generator on marine fishing boat when the stop work, have sea wind to get into turbine generator inside through ventilative mouthful easily, long-term so then can become the sea salt layer in turbine generator inside, lead to turbine generator's generating efficiency to appear the phenomenon that descends.

Disclosure of Invention

In view of the above problems, the present invention provides a turbine power generating apparatus.

In order to achieve the purpose, the invention is realized by the following technical scheme: the turbine power generation equipment structurally comprises a generator, a turbine mechanism, a ventilation port, a base and an electric connection box, wherein the turbine mechanism is fixedly embedded at the right end of the generator, the base is welded at the bottom of the generator, the electric connection box is installed at the upper end of the generator, and the ventilation port and the turbine mechanism are integrated.

As a further optimization of the present invention, the ventilation port includes a frame, an exhaust chamber, and a swing plate, the exhaust chamber and the frame are integrated, the swing plate is hinged to the frame, and when an air flow pushes the swing plate outwards through the exhaust chamber, the swing plate can swing upwards, so that the air flow can be exhausted.

As a further optimization of the invention, the oscillating plate comprises a joining roller, a linkage plate, a protective surface, a plate surface, a baffle plate, a sliding plate, an elastic strip and a scraping block, wherein the joining roller is arranged at the upper end position of the baffle plate, the linkage plate is connected with the baffle plate through the plate surface, the protective surface is embedded in the central position of the inner part of the plate surface, the baffle plate is fixedly connected with the plate surface in an embedded manner, the sliding plate is movably clamped with the baffle plate, the elastic strip is arranged in the baffle plate, the scraping block and the sliding plate are of an integrated structure, and the protective surface is in a continuous folding form.

As a further optimization of the invention, the scraping block comprises an outer frame, a resilient strip, a movable plate and a removing plate, wherein the resilient strip and the movable plate are integrated into a whole, the movable plate is movably clamped with the outer frame, the removing plate is hinged with the movable plate, and the movable plate is made of spring steel with strong elasticity.

As a further optimization of the invention, the protection surface comprises open close plates, a sliding block, a fixed rod, a transmission rod and a connecting rod, wherein the sliding block is in clearance fit with the open close plates, the fixed rod is embedded between the two open close plates, one end of the transmission rod is connected with the left end of the fixed rod, the other end of the transmission rod is movably clamped with the left end of the connecting rod, the connecting rod is hinged with the sliding block, and the two fixed rods are symmetrically distributed at the inner side positions of the open close plates.

As a further optimization of the invention, the sliding block comprises a cleaning block, a sliding strip, a bouncing mechanism and a reset piece, the sliding strip is in clearance fit with the cleaning block, the bouncing mechanism and the sliding strip are of an integrated structure, the reset piece is arranged at the inner position of the cleaning block, and the reset piece is made of spring steel with strong elasticity.

As a further optimization of the invention, the bouncing mechanism comprises a shell, a bouncing plate and an outer membrane, wherein the bouncing plate is hinged with the inner wall of the shell, the outer membrane is fixedly connected with the shell in an embedded manner, and the outer membrane is made of soft and corrosion-resistant polyethylene plastic.

The invention has the following beneficial effects:

1. when the turbine mechanism works, the air flow generated by the rotation of the turbine in the turbine mechanism can enable the swing plate on the ventilation port to swing upwards, so that the air flow in the turbine mechanism can be discharged, when the turbine mechanism stops working, the swing plate on the ventilation port can restore to a closed state, so that sea wind is kept out of the outer surface position of the swing plate, the sea wind is brought to the outer surface position of the swing plate to be attached to a sea salt bucket in a concentrated mode, when the swing plate swings upwards again, the continuous outer discharge air flow generated by the rotation of the turbine in the turbine mechanism can push the linkage plate to slide forwards, so that the sliding plate connected with the linkage plate can scrape off the sea salt attached to the upper surface of the plate, and the phenomenon that the sea wind enters the interior of the turbine mechanism through the ventilation port when the turbine mechanism stops working is effectively avoided.

2. Through the extrusion that produces the protection face when linkage plate slides forward, can make the open-close board on the protection face fold closed to make the transfer line on the protection face can follow the open-close board and carry out synchronous closure, so make the connecting rod that is connected with the transfer line can drive the sliding block and strike off the inboard adnexed sea salt of open-close board, avoided adnexed sea salt to be difficult to the phenomenon of cleaing away on the protection face.

Drawings

FIG. 1 is a schematic view of a turbine power plant according to the present invention.

Fig. 2 is a partial perspective structural schematic view of the ventilation port of the present invention.

FIG. 3 is a schematic view of the construction of the swing plate of the present invention.

FIG. 4 is a top view of the swing plate of the present invention.

Fig. 5 is a schematic top view of the scraping block of the present invention.

FIG. 6 is a schematic side view of a portion of a protective surface according to the present invention.

FIG. 7 is a side view of the slider of the present invention.

Fig. 8 is a side view of the landing mechanism of the present invention.

In the figure: the generator-1, the turbine mechanism-2, the ventilation opening-3, the base-4, the electronic box-5, the frame-31, the exhaust cavity-32, the swinging plate-33, the engaging roller-a 1, the linkage plate-a 2, the protective surface-a 3, the plate surface-a 4, the baffle-a 5, the sliding plate-a 6, the elastic strip-a 7, the scraping block-a 8, the outer frame-a 81, the rebound strip-a 82, the movable plate-a 83, the clearing plate-a 84, the opening plate-a 31, the sliding block-a 32, the fixed rod-a 33, the transmission rod-a 34, the connection rod-a 35, the clearing block-b 1, the sliding strip-b 2, the rebound mechanism-b 3, the reset sheet-b 4, the shell-b 31, the rebound plate-b 32 and the outer film-b 33.

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.

Example 1

As shown in fig. 1-5:

the invention provides turbine power generation equipment which structurally comprises a generator 1, a turbine mechanism 2, a ventilation port 3, a base 4 and an electric connection box 5, wherein the turbine mechanism 2 is embedded in the right end of the generator 1, the base 4 is welded to the bottom of the generator 1, the electric connection box 5 is installed at the upper end of the generator 1, and the ventilation port 3 and the turbine mechanism 2 are integrated.

The ventilation port 3 comprises a frame body 31, an exhaust cavity 32 and a swing plate 33, the exhaust cavity 32 and the frame body 31 are of an integrated structure, the swing plate 33 is hinged to the frame body 31, when airflow pushes the swing plate 33 outwards through the exhaust cavity 32, the swing plate 33 can swing upwards, and therefore the airflow can be exhausted, when thrust of the airflow is lost, the swing plate 33 can be restored to a closed state, and the condition that sea breeze enters the ventilation port through the exhaust cavity 32 when the mechanism stops running is effectively avoided.

The swinging plate 33 comprises an engaging roller a1, a linkage plate a2, a protective surface a3, a plate surface a4, a baffle plate a5, a sliding plate a6, an elastic strip a7 and a scraping block a8, the engaging roller a1 is mounted at the upper end position of the baffle plate a5, the linkage plate a5 is connected with the baffle plate a5 through the plate surface a5, the protective surface a5 is embedded in the center position of the plate surface a5, the baffle plate a5 is fixedly connected with the plate surface a5, the sliding plate a5 is movably clamped with the baffle plate a5, the elastic strip a5 is arranged inside the baffle plate a5, the scraping block a5 and the sliding plate a5 are of an integrated structure, when the plate surface a5 swings upwards, an air flow continuously generated inside the mechanism can push the linkage plate a5 to slide forwards, so that the scraping block a5 on the sliding plate a5 can scrape sea salt on the surface of the plate a5, the protective surface a5 is in a corrugated shape, the condition that sea wind enters the inside of the mechanism through gaps is avoided.

The scraping block a8 comprises an outer frame a81, a rebound strip a82, a movable plate a83 and a clearing plate a84, the rebound strip a82 and the movable plate a83 are integrated into a whole, the movable plate a83 and the outer frame a81 are movably clamped, the clearing plate a84 is hinged to the movable plate a83, the movable plate a83 is made of spring steel with strong elasticity, the movable plate a83 and the clearing plate a84 which are not extruded by external force can be quickly reset, and therefore sea salt staying in the clearing plate a84 can be removed by rebounding.

The detailed use method and action of the embodiment are as follows:

in the invention, as the ventilation port 3 on the turbine mechanism 2 is always communicated with the outside, when the generator 1 used on the offshore fishing vessel stops working, sea wind easily enters the inside of the generator 1 through the ventilation port 3, and can be formed into a sea salt layer in the inside of the generator 1 for a long time, the problems can be effectively solved through the swing plate 33 on the ventilation port 3, when the turbine mechanism 2 works, the air flow generated by the rotation of the turbine in the turbine mechanism 2 can enable the swing plate 33 on the ventilation port 3 to swing upwards, so that the air flow in the turbine mechanism 2 can be discharged, when the turbine mechanism 2 stops working, the swing plate 33 on the ventilation port 3 can be restored to a closed state, so that the sea wind is blocked at the outer surface position of the swing plate 33, therefore, sea salt buckets brought by the sea wind are intensively attached to the outer surface position of the swing plate 33, when the swing plate 33 swings upwards again, continuous exhaust air flow generated by rotation of a turbine in the turbine mechanism 2 can push the linkage plate a2 to slide forwards, so that the sliding plate a6 can slide synchronously along with the linkage plate a2, therefore, the removing plate a84 on the removing block a8 can remove sea salt attached to the upper surface of the plate a4, extrusion force generated by the removing plate a84 through the removed sea salt can enable the removing plate a84 and the movable plate a83 to shrink towards the inside of the outer frame a81, the quantity of the sea salt contained in the removing block a8 is increased, when the turbine mechanism 2 stops working, the auxiliary sea salt on the outer surface of the removing plate a84 can be quickly ejected through the rebound strip a82, and the phenomenon that sea wind enters the interior of the turbine mechanism 2 through the ventilation port 3 when the turbine mechanism 2 stops working is effectively avoided, and a sea salt layer is formed in the generator 1.

Example 2

As shown in fig. 6-8:

the protective face a3 comprises an opening plate a31, a sliding block a32, a fixed rod a33, a transmission rod a34 and a connecting rod a35, wherein the sliding block a32 is in clearance fit with the opening plate a31, the fixed rod a33 is embedded between two opening plates a31, one end of the transmission rod a34 is connected with the left end of the fixed rod a33, the other end of the transmission rod a34 is movably clamped with the left end of the connecting rod a35, the connecting rod a35 is hinged with the sliding block a32, two fixing rods a33 are arranged and symmetrically distributed at the inner side of the opening plate a31, and when the opening plate a31 is folded and closed by external force, the transmission rod a34 can be synchronously closed, so that the sliding block a32 on the connecting rod a35 can be attached to the inner side of the opening plate a31 and slide leftwards, and sea salt can be attached to the inner side surface of the opening plate a31 for scraping.

Wherein, slider a32 includes clearance piece b1, slider b2, bullet mechanism b3, the piece b4 that resets that falls, slider b2 and clearance piece b1 clearance fit, bullet mechanism b3 and slider b2 structure as an organic whole that falls, reset piece b4 is installed in clearance piece b 1's inside position, and when slider b2 received the extrusion of external force, can slide backward to make clearance piece b1 can strike off the adnexed sea salt in object surface, reset piece b4 adopts the spring steel material that elasticity is stronger, can promote to lose the extruded slider b2 of external force and reset.

Wherein, bullet mechanism b3 includes shell b31, rebound board b32, adventitia b33, rebound board b32 and shell b 31's inner wall hinged joint, adventitia b33 is connected with shell b31 is embedded firmly, adventitia b33 adopts soft texture and corrosion-resistant polyethylene plastic material, when it receives the extrusion of the sea salt of scraping off, can produce the radian to shell b 31's inside direction to can hold more sea salt, when adventitia b33 loses the external force extrusion, can be with the sea salt bullet on adventitia b33 surface through rebound board b32 and fall.

The detailed use method and action of the embodiment are as follows:

in the invention, the ventilation opening 3 is in a wrinkled shape and synchronously extends and retracts along with the linkage plate a2, so that the sliding plate a6 is difficult to scrape off the sea salt attached to the protective surface a3, the problem can be effectively solved through the sliding block a32 on the protective surface a3, the protective surface a3 is extruded when the linkage plate a2 slides forwards, the open-close plate a31 on the protective surface a3 can be folded and closed, so that the transmission rod a34 on the protective surface a3 can be synchronously closed along with the open-close plate a31, the connecting rod a35 connected with the transmission rod a34 can drive the sliding block 63a 32 to attach and slide on the inner side surface of the open-close plate a31, the sea salt can generate extrusion force on the linkage plate a2 on the sliding block a32, and the sliding strip b2 can slide and retract backwards, so that the cleaning block b1 can scrape off the salt attached to the inner side surface of the open-close plate a31, when linkage board a2 resets back open-close plate a31 and follows it and expand, can promote slide bar b2 through piece b4 that resets and reset to can fall the sea salt bullet on adventitia b33 of adhering to through the rebound board b32 on the bullet mechanism b3 that falls, the effectual condition of having avoided adhering to on the protective surface a3 sea salt to be difficult to clear away.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a turbine power generation equipment, its structure includes generator (1), turbo mechanism (2), ventilative mouthful (3), base (4), connects electronic box (5), turbo mechanism (2) are embedded in the right-hand member position of generator (1), base (4) weld in the bottom position of generator (1), connect electronic box (5) to install in the upper end position of generator (1), its characterized in that: the ventilation port (3) and the turbine mechanism (2) are an integrated mechanism;

the ventilation port (3) comprises a frame body (31), an exhaust cavity (32) and a swinging plate (33), the exhaust cavity (32) and the frame body (31) are of an integrated structure, and the swinging plate (33) is hinged with the frame body (31);

the swinging plate (33) comprises a joining roller (a1), a linkage plate (a2), a protective surface (a3), a plate surface (a4), a baffle plate (a5), a sliding plate (a6), an elastic strip (a7) and a scraping block (a8), wherein the joining roller (a1) is mounted at the upper end position of the baffle plate (a5), the linkage plate (a2) is connected with the baffle plate (a5) through the plate surface (a4), the protective surface (a3) is embedded in the inner center position of the plate surface (a4), the baffle plate (a5) is fixedly connected with the plate surface (a4), the sliding plate (a6) is movably clamped with the baffle plate (a5), the elastic strip (a7) is arranged inside the baffle plate (a5), and the scraping block (a8) and the sliding plate (a6) are of an integrated structure;

the scraping block (a8) comprises an outer frame (a81), a rebound strip (a82), a movable plate (a83) and a clearing plate (a84), wherein the rebound strip (a82) and the movable plate (a83) are integrated into a whole, the movable plate (a83) is movably clamped with the outer frame (a81), and the clearing plate (a84) is hinged with the movable plate (a 83);

the protective face (a3) comprises an open-close plate (a31), a sliding block (a32), a fixed rod (a33), a transmission rod (a34) and a connecting rod (a35), wherein the sliding block (a32) is in clearance fit with the open-close plate (a31), the fixed rod (a33) is embedded between two open-close plates (a31), one end of the transmission rod (a34) is connected with the left end of the fixed rod (a33), the other end of the transmission rod (a34) is movably clamped with the left end of the connecting rod (a35), and the connecting rod (a35) is hinged with the sliding block (a 32);

the sliding block (a32) comprises a cleaning block (b1), a sliding bar (b2), a bouncing-down mechanism (b3) and a resetting piece (b4), the sliding bar (b2) is in clearance fit with the cleaning block (b1), the bouncing-down mechanism (b3) and the sliding bar (b2) are of an integrated structure, and the resetting piece (b4) is installed at the inner position of the cleaning block (b 1);

the bouncing mechanism (b3) comprises a shell (b31), a rebounding plate (b32) and an outer membrane (b33), wherein the rebounding plate (b32) is hinged with the inner wall of the shell (b31), and the outer membrane (b33) is fixedly connected with the shell (b 31).