CN111810351A

CN111810351A - Hydraulic generator

Info

Publication number: CN111810351A
Application number: CN202010705622.XA
Authority: CN
Inventors: 黄鸿源
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2020-10-23

Abstract

The invention discloses a hydraulic generator which structurally comprises a protective cover, a converter, a radiator and a generator, wherein the converter is arranged at the front end position of the generator, the radiator is connected with the generator, the generator is fixedly connected with the protective cover in an embedded manner, when hydraulic oil stops pushing a plunger, so that the plunger stops pushing the swinging disc forwards and contracts backwards along the sleeve frame, the push-contact board can be pushed to be clamped into the inner concave surface of the external connection ring through the boosting sheet on the connection ring, thereby the external ring can not rotate, the swinging disc can not swing due to inertia, when the swinging disc is pushed forwards by the plunger, the oscillating disc generates reverse thrust to the front push block on the plunger piston, so that the front push block can push the telescopic frame to contract and deform, thereby can make the plunger guarantee can promote the swing dish spare swing fast, also can cushion unnecessary impact simultaneously.

Description

Hydraulic generator

Technical Field

The invention relates to the field of generators, in particular to a hydraulic generator.

Background

Hydraulic generator mainly promotes the plunger through the business turn over of hydraulic oil in its inside to make the plunger can promote the front end swing dish and carry out the seesaw, so make the plunger can promote the rotor and rotate, so that the rotor can convert mechanical energy into the electric energy with the converter cooperation, compare just traditional just have the generator more energy-conserving high-efficient, based on the above-mentioned description the inventor discovers that current hydraulic generator mainly has following not enoughly, for example:

because so that the swing dish can also swing because of inertia after hydraulic generator closes, if open hydraulic generator again when the swing dish one end that the oil inlet corresponds is swung forward, then can make the impact distance of hydraulic oil to the swing dish elongated, and need wait until the swing dish of oil-out swings the back, hydraulic oil just can make hydraulic generator begin to work to it promotes, leads to hydraulic engine's start-up time to lengthen.

Disclosure of Invention

In view of the above problems, the present invention provides a hydraulic generator.

In order to achieve the purpose, the invention is realized by the following technical scheme: a hydraulic generator structurally comprises a protective cover, a converter, a radiator and a generator, wherein the converter is installed at the front end of the generator, the radiator is connected with the generator, and the generator is fixedly connected with the protective cover; the generator comprises an oil guide pipe, a shell, a rotor, a swing disc, a connecting ring, a plunger, a telescopic rod, a sleeve frame and a connecting rod, wherein the oil guide pipe and the shell are of an integrated structure, the rotor is movably clamped with the shell, the swing disc is connected with the front end of the connecting rod through the connecting ring in a hinged mode, the plunger is fixedly embedded at the front end of the telescopic rod, the telescopic rod is in clearance fit with the sleeve frame, and the connecting rod is connected with the left side of the inner wall of the shell.

As a further optimization of the invention, the connecting ring comprises an external connecting ring, a top touch plate, six boosting plates, a connecting rod and an internal connecting ring, wherein the inner side of the external connecting ring is attached to the outer surface of the top touch plate, the top touch plate is fixedly embedded with the boosting plates, the boosting plates are connected with the internal connecting ring, the connecting rod is movably clamped with the boosting plates, and the outer surfaces of the six boosting plates are uniformly distributed in a circular shape.

As a further optimization of the invention, the top contact plate comprises a movable block, a support rod, elastic pieces, a bearing block and a bottom plate, wherein the movable block is hinged with the bottom plate, the support rod is movably clamped between the movable block and the bearing block, the elastic pieces are arranged between the support rod and the bearing block, the bearing block and the bottom plate are of an integrated structure, five movable blocks are arranged, and the outer surface of the bottom plate is uniformly distributed in a fan shape.

As a further optimization of the invention, the swinging disc comprises a frame body, a linkage rod, a pressing ball and an elastic strip, wherein the linkage rod is in clearance fit with the frame body, the pressing ball is fixedly embedded at the lower end of the linkage rod, the elastic strip is arranged between the linkage rod and the upper end of the inner wall of the frame body, and the pressing ball is made of alloy steel with higher density.

As a further optimization of the invention, the plunger comprises a front push block, an expansion bracket, a return spring plate and a plate body, wherein the front push block is embedded and fixed at the right end position of the expansion bracket, the left side of the expansion bracket is attached to the right side surface of the plate body, the return spring plate is connected with the expansion bracket, and the expansion bracket is in an X-shaped structure.

As a further optimization of the invention, the front pushing block comprises a frame, a reverse pushing strip, three deformation pieces, supporting blocks and a rear connecting plate, wherein the reverse pushing strip is in clearance fit with the frame, the deformation pieces are connected with the supporting blocks, the supporting blocks are fixedly embedded with the rear connecting plate, and the reverse pushing strips are uniformly distributed on the right side surface of the deformation pieces in parallel.

As a further optimization of the invention, the telescopic rod comprises open close plates, an attaching plate, guide rods, a pull back strip, an outer sleeve frame, wherein the open close plates are hinged with the guide rods, the attaching plate and the outer sleeve frame are of an integrated structure, the guide rods are movably clamped with the outer sleeve frame, the pull back strip is arranged between two adjacent open close plates, the number of the open close plates is four, and the two open close plates are uniformly distributed on the left side and the right side of the guide rods in a group and are symmetrical to each other.

The invention has the following beneficial effects:

1. when hydraulic oil stops promoting the plunger to make the plunger stop to promote the swing dish forward, and contract backward along the cover frame, can promote the inside of the inboard concave surface that the top touch integrated circuit board income external ring through the boosting piece on the linking ring, thereby make external ring unable rotate, so make the swing dish can not swing because of inertia.

2. When the swing disc is pushed forwards by the plunger, the reverse thrust generated by the front push block on the plunger by the swing disc can push the expansion bracket to contract and deform, so that the plunger can buffer redundant impact force when the swing disc piece is guaranteed to be pushed to swing quickly.

Drawings

Fig. 1 is a schematic structural diagram of a hydraulic generator according to the present invention.

FIG. 2 is a side view of a half-section structure of a generator according to the present invention.

FIG. 3 is a schematic side view of a half-section of a splice ring according to the present invention.

FIG. 4 is a side view of a top touch plate with a half-section structure according to the present invention.

FIG. 5 is a side half-section schematic view of the wobble plate of the present invention.

FIG. 6 is a side view of a plunger of the present invention in half cross-section.

FIG. 7 is a schematic structural diagram of a side view cross section of the pusher block of the present invention.

Fig. 8 is a schematic structural view of a front half section of the telescopic rod of the present invention.

In the figure: shield-1, converter-2, radiator-3, generator-4, oil conduit-41, shell-42, rotor-43, swinging disk-44, connecting ring-45, plunger-46, telescopic rod-47, sleeve frame-48, connecting rod-49, external ring-a 1, top touch plate-a 2, boosting sheet-a 3, connecting rod-a 4, internal ring-a 5, movable block-a 21, supporting rod-a 22, elastic sheet-a 23, bearing block-a 24, bottom plate-a 25, frame-b 1, linkage rod-b 2, pressing ball-b 3, elastic strip-b 4, front push block-c 1, telescopic frame-c 2, elastic sheet-c 3, plate body-c 4, frame-c 11, reverse push strip-c 12, deformation sheet-c 13, Support block-c 14, rear connecting plate-c 15, split plate-d 1, attaching plate-d 2, guide rod-d 3, pull back strip-d 4 and jacket frame-d 5.

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 a hydraulic generator which structurally comprises a protective cover 1, a converter 2, a radiator 3 and a generator 4, wherein the converter 2 is arranged at the front end of the generator 4, the radiator 3 is connected with the generator 4, and the generator 4 is fixedly connected with the protective cover 1; the generator 4 comprises an oil guide pipe 41, a shell 42, a rotor 43, a swinging disc 44, a connecting ring 45, a plunger 46, an expansion link 47, a sleeve frame 48 and a connecting rod 49, the oil guide pipe 41 and the shell 42 are of an integrated structure, the rotor 43 is movably clamped with the shell 42, the swinging disc 44 is hinged with the front end of the connecting rod 49 through the connecting ring 45, the plunger 46 is embedded and fixed at the front end of the expansion link 47, the expansion link 47 is in clearance fit with the sleeve frame 48, and the connecting rod 49 is connected with the left side of the inner wall of the shell 42.

The connecting ring 45 comprises an outer connecting ring a1, a top contact plate a2, a boosting sheet a3, a combining rod a4 and an inner connecting ring a5, the inner side of the outer connecting ring a1 is attached to the outer surface of a top contact plate a2, the top contact plate a2 is fixedly connected with the boosting sheet a3 in an embedded mode, the boosting sheet a3 is connected with the inner connecting ring a5, the combining rod a4 is movably clamped with the boosting sheet a3, six top contact plates a2 are arranged, the outer surfaces of the boosting sheets a3 on c5 are uniformly distributed in a circular mode, the boosting sheets a3 can be squeezed and bent through pushing of hydraulic oil inside the mechanism, the outer connecting ring a1 rotates on the outer surface which can be attached to the top contact plate a2, and when pushing of the boosting sheets a3 is lost, the boosting sheets a3 can push the top contact plate a2 upwards to push the inner side of the outer connecting ring a1 into the concave surface.

The top touch plate a2 comprises a movable block a21, a support rod a22, an elastic sheet a23, a receiving block a24 and a bottom plate a25, the movable block a21 is hinged to the bottom plate a25, the support rod a22 is movably clamped between a movable block a21 and the receiving block a24, the elastic sheet a23 is installed between the support rod a22 and the receiving block a24, the receiving block a24 and the bottom plate a25 are of an integrated structure, five movable blocks a21 are arranged, the outer surface of the bottom plate a25 is uniformly distributed in a fan shape, when hydraulic oil stops pushing the mechanism to swing, the lower end of the mechanism swings forwards according to inertia, the inner wall of an object can rub against the movable block a21 from left to right, and accordingly the movable block a21 can buffer and consume inertia generated by the mechanism.

The swinging disc 44 comprises a frame b1, a linkage rod b2, a pressing ball b3 and an elastic strip b4, the linkage rod b2 is in clearance fit with the frame b1, the pressing ball b3 is embedded in the lower end position of the linkage rod b2, the elastic strip b4 is installed between the linkage rod b2 and the upper end of the inner wall of the frame b1, the pressing ball b3 is made of alloy steel with high density, the pressing ball b3 can be driven by the linkage rod b2 to slide in the frame b1 according to the swinging of the mechanism, and when the mechanism pushes hydraulic oil to be removed, the linkage rod b2 can be driven by the gravity of the pressing ball b3 to slide downwards along the inner wall of the frame b 1.

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

in the invention, because the swing disc 44 swings due to inertia after the generator 4 is closed, if the hydraulic generator is opened again when one end of the swing disc 44 corresponding to the oil inlet swings forwards, the impact distance of the plunger 46 on the swing disc is lengthened, and the plunger 46 pushes the swing disc 44 waiting for the oil outlet to swing backwards, so that the generator 4 starts to work, the starting time of the generator 4 is prolonged, the problems can be solved more effectively by the connecting ring 45 on the generator 4, when the generator 4 runs, hydraulic oil can be injected into the shell 42 through the oil guide pipe 41, so that the plunger 46 can slide forwards along the sleeve frame 48 under the coordination of the telescopic rod 47, the plunger 46 can push the swing disc 44 to swing, and the swing disc 44 swings under the thrust of the plunger 46, so as to drive the auxiliary push piece a3 on the connecting ring 45 to bend and deform, so that the inner side of the external ring a1 can rotate along the outer surface of the top contact plate a2, when the hydraulic oil stops pushing the plunger 46, the plunger 46 stops pushing the swing disc 44 forward to swing, and the swing disc contracts backward along the sleeve frame 48, because the force of inertia is much smaller than the thrust generated by the plunger 46 pushed by the hydraulic oil, so that the push assisting sheet a3 on the connecting ring 45 can push the top contact plate a2 to be clamped into the inner concave surface of the external ring a1, and when the lower end of the swing disc 44 swings forward according to the inertia, the inner concave surface of the external ring a1 can rub against the movable block a21 from right to left, so that the movable block a21 can quickly consume the inertia generated by the swing disc 44, the external ring a1 cannot rotate, and the link rod b2 can be quickly pulled to slide down along the inner wall of the frame b1 by the self gravity of the pressing ball b3 inside the swing disc 44, therefore, the matching joint ring 45 can quickly stop the swinging of the swinging disk 44, and the condition that the swinging disk 44 still swings due to inertia when the plunger 46 stops pushing the swinging disk 44 is effectively avoided.

Example 2

As shown in fig. 6-8:

the plunger 46 comprises a front push block c1, an expansion bracket c2, a rebound sheet c3 and a plate body c4, wherein the front push block c1 is embedded at the right end of the expansion bracket c2, the left side of the expansion bracket c2 is attached to the right side surface of the plate body c4, the rebound sheet c3 is connected with an expansion bracket c2, the expansion bracket c2 is in an X-shaped structure and can move in a hinge mode, and when the front push block c1 impacts an object, the expansion bracket c2 can contract and deform according to the counter thrust generated by the object to the front push block c 1.

The front push block c1 comprises a frame c11, a reverse push bar c12, a deformation piece c13, a support block c14 and a rear connecting plate c15, the reverse push bar c12 is in clearance fit with the frame c11, the deformation piece c13 is connected with a support block c14, the support block c14 is fixedly connected with the rear connecting plate c15 in an embedded mode, the reverse push bar c12 is three and is uniformly distributed on the right side surface of the deformation piece c13 in parallel, the reverse push bar c12 can be retracted inwards along the frame c11 through the reverse push force generated by the mechanism on the reverse push bar c12, and the reverse push bar c12 can be pushed rightwards to slide and extend out along the frame c11 when the mechanism is about to retract backwards through the deformation piece c 13.

The telescopic rod 47 comprises an opening plate d1, a jointing plate d2, a guide rod d3, a pulling strip d4, a jacket frame d5, an opening plate d1 and a guide rod d3, wherein the jointing plate d2 and the jacket frame d5 are in an integrated structure, the guide rod d3 is movably clamped with the jacket frame d5, the pulling strip d4 is installed between two adjacent opening plates d1, the opening plates d1 are provided with four, the two opening plates are in symmetrical distribution on the left side and the right side of the guide rod d3, the opening plates d1 can swing upwards along the guide rod d3 by squeezing the left side and the right side of the two jointing plates d2 through the inner wall of an object, and therefore the opening plates d1 can upwards push the jointing plates d2 to be tightly jointed with the inner wall of the object.

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

in the invention, because the plunger 46 is pushed by hydraulic oil to rapidly impact the swing disc 44, and the swing disc 44 is subjected to a part of redundant force after being sufficiently swung, the service life of the swing disc 44 is reduced for a long time, and the front push block c1 on the plunger 46 is matched with the telescopic frame c2, so that the problems can be effectively solved, when the plunger 46 pushes the swing disc 44 forwards, the swing disc 44 generates reverse thrust on the front push block c1 on the plunger 46, the front push block c1 can push the telescopic frame c2 to contract and deform, so that the plunger 46 can buffer the redundant impact force while ensuring that the swing disc 44 can be rapidly pushed to swing, the situation that the swing disc 44 is additionally subjected to the redundant impact force of the plunger 46 when being sufficiently swung is effectively avoided, and when the swing disc 44 is impacted by the front push block c1, the swinging disc 44 can slide and contract the reverse push bar c12 inwards along the frame c11 by the reverse push force generated by the reverse push bar c12 on the forward push block c1, and when the plunger 46 is about to contract backwards, the reverse push bar c12 can be pushed to slide outwards along the frame c11 by the deformation sheet c13, so that the forward push block c1 can be quickly separated from the outer surface of the swinging disc 44, static electricity caused by the long-time contact between the swinging disc 44 and the rotor 43 is effectively avoided, the forward push block c1 is adsorbed on the swinging disc 44, the left and right sides of the two abutting plates d2 on the telescopic rod 47 are squeezed by the inner wall of the sleeve 48, the open plate d1 can swing upwards along the guide rod d3, the open plate d1 can push the abutting plates d2 upwards to be tightly abutted against the inner wall of the sleeve 48, the telescopic rod 47 is effectively avoided from sliding friction with the sleeve 48 for a long time, and the telescopic rod 47 is easily abraded, the telescopic rod 47 and the frame 48 are not tightly attached.

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 hydraulic generator, its structure includes guard shield (1), converter (2), radiator (3), generator (4), the front end position in generator (4) is installed in converter (2), radiator (3) are connected its characterized in that with generator (4): the generator (4) is fixedly connected with the shield (1);

generator (4) is including leading oil pipe (41), shell (42), rotor (43), swing dish (44), linking ring (45), plunger (46), telescopic link (47), cover frame (48), connecting rod (49), lead oil pipe (41) and shell (42) structure as an organic whole, rotor (43) and shell (42) activity block, swing dish (44) with link ring (45) and the front end hinged joint of connecting rod (49) through linking, plunger (46) are inlayed in the front end position of telescopic link (47), telescopic link (47) and cover frame (48) clearance fit, connecting rod (49) are connected with the inner wall left side of shell (42).

2. A hydraulic generator as claimed in claim 1, wherein: the connecting ring (45) comprises an outer connecting ring (a1), a top contact plate (a2), a boosting sheet (a3), a connecting rod (a4) and an inner connecting ring (a5), the inner side of the outer connecting ring (a1) is attached to the outer surface of the top contact plate (a2), the top contact plate (a2) is fixedly connected with the boosting sheet (a3), the boosting sheet (a3) is connected with the inner connecting ring (a5), and the connecting rod (a4) is movably clamped with the boosting sheet (a 3).

3. A hydraulic generator as claimed in claim 2, wherein: the top touch plate (a2) comprises a movable block (a21), a support rod (a22), an elastic sheet (a23), a bearing block (a24) and a bottom plate (a25), wherein the movable block (a21) is hinged to the bottom plate (a25), the support rod (a22) is movably clamped between the movable block (a21) and the bearing block (a24), the elastic sheet (a23) is installed between the support rod (a22) and the bearing block (a24), and the bearing block (a24) and the bottom plate (a25) are of an integrated structure.

4. A hydraulic generator as claimed in claim 1, wherein: the swinging disc (44) comprises a frame body (b1), a linkage rod (b2), a pressing ball (b3) and an elastic strip (b4), wherein the linkage rod (b2) is in clearance fit with the frame body (b1), the pressing ball (b3) is embedded in the lower end position of the linkage rod (b2), and the elastic strip (b4) is installed between the linkage rod (b2) and the upper end of the inner wall of the frame body (b 1).

5. A hydraulic generator as claimed in claim 1, wherein: plunger (46) are including preceding ejector pad (c1), expansion bracket (c2), resilience piece (c3), plate body (c4), preceding ejector pad (c1) are inlayed and are fixed in the right-hand member position of expansion bracket (c2), the left side of expansion bracket (c2) is laminated with the right side surface of plate body (c4) mutually, resilience piece (c3) is connected with expansion bracket (c 2).

6. A hydraulic generator as claimed in claim 3, wherein: the front push block (c1) comprises a frame (c11), a reverse push bar (c12), a deformation piece (c13), a supporting block (c14) and a rear connecting plate (c15), wherein the reverse push bar (c12) is in clearance fit with the frame (c11), the deformation piece (c13) is connected with the supporting block (c14), and the supporting block (c14) is fixedly connected with the rear connecting plate (c 15).

7. A hydraulic generator as claimed in claim 1, wherein: telescopic link (47) include open-close plate (d1), rigging board (d2), guide arm (d3), pull back strip (d4), overcoat frame (d5) open-close plate (d1) and guide arm (d3) hinged joint, rigging board (d2) and overcoat frame (d5) structure as an organic whole, guide arm (d3) and overcoat frame (d5) activity block, pull back strip (d4) and install between two adjacent open-close plates (d 1).