CN110685853A - High-creep-rate high-strength hydraulic motor - Google Patents

Abstract

The invention discloses a high-creep-rate high-strength hydraulic motor, which structurally comprises a mounting flange and a shell, wherein the mounting flange is provided with an output shaft and a gasket, the shell is provided with a rotor, a controller and a connecting partition plate, and the hydraulic motor has the beneficial effects that: promote the catch bar through the impeller and remove in the gag lever post, thereby under the mating reaction of gag lever post, make the book on the catch bar dry and form the toper, thereby among the card income card fastener, strut the folded sheet, the folded sheet opens and closes under reset spring's cooperation, thereby the angle that the control folded sheet opened and closes, and then the steadiness of being connected between control connection baffle and the casing, the hydraulic motor of being convenient for reduces the atress of connecting baffle department when carrying out great moment of torsion rotation, guarantee hydraulic motor's stability.

Description

High-creep-rate high-strength hydraulic motor

Technical Field

The invention relates to the field of motors, in particular to a high-creep-rate high-strength hydraulic motor.

Background

The motor has an important role in the field of automobiles, the performance of the motor is related to the quality problem of the automobiles and the driving comfort, the torque of the motor is larger, the strength output by the engine is larger, the climbing capability, the starting speed and the acceleration of the automobiles are better, and the torque and the speed are related to the driving experience of drivers, so that the performance of the motor is directly related to the sales volume of the automobiles.

Aiming at the current high-creep-rate high-strength hydraulic motor, a relative scheme is made for the following problems:

when the existing high-creep-rate high-strength hydraulic motor works, the torque of the motor is in direct proportion to the speed, the change of the rotating speed of a crankshaft is faster as the torque of the motor is larger, but the torque of the hydraulic motor is smaller, and if the torque is increased, certain instability is easily caused to the hydraulic motor, so that a movable space between connecting partition plates is strongly pressed, and the problem is easily caused.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a high-creep-rate and high-strength hydraulic motor.

The invention is realized by adopting the following technical scheme: a high-creep-rate and high-strength hydraulic motor structurally comprises a mounting flange and a shell, wherein the mounting flange is connected to the shell through bolts, the shell is connected with the mounting flange through bolts, the mounting flange is provided with an output shaft and a gasket, the output shaft is embedded in the mounting flange, and the gasket is embedded between the output shaft and the mounting flange; the casing is equipped with rotor, controller, connection baffle, the rotor is through welding on the casing surface, the controller welds in casing one end, it inlays to locate between casing and the controller to connect the baffle.

As optimization, the connecting partition plate is provided with an ejector, a limiting rod and a clamping device, the ejector is embedded inside the limiting rod, the limiting rod is embedded on the connecting partition plate, the clamping device is embedded inside the connecting partition plate, the ejector is made of metal materials, the ejector is 4 groups, the limiting rod is of a circular rod-shaped structure, the limiting rods are 4, and the clamping device is of a V-shaped structure.

As optimization, the ejector is equipped with kelly, catch bar, the catch bar inlays to be located inside the gag lever post, the catch bar inlays to be located inside the catch bar, the catch bar is the circular shaft-like structure of cavity, the catch bar is the metal material, the catch bar is circular shaft-like structure, the catch bar is the metal material.

As optimization, the kelly is equipped with board wing, spring, the board wing welds on the kelly surface, the spring welds between kelly and catch bar, the board wing is 4, the board wing is the metal material, the spring is the metal material.

As an optimization, the catch bar is equipped with the folded plate, the folded plate inlays and locates catch bar one end, the folded plate is 4, the folded plate is the metal material.

Preferably, the clamping device is provided with a folding plate and a rotating shaft, the folding plate is embedded in the rotating shaft, the rotating shaft is embedded in the connecting partition plate, the folding plate is of a V-shaped structure, the folding plate is made of metal, the rotating shaft is made of metal, and the rotating shaft is of a circular rod-shaped structure.

As optimization, the folded sheet is equipped with reset spring, reset spring welds between the folded sheet, reset spring is the metal material, reset spring is 1.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

the connecting partition plate is provided with the ejector, the limiting rod and the clamping device, the pusher enters the limiting rod and moves in the limiting rod by pushing the ejector, so that the pusher is driven to enter the middle of the clamping device, and the clamping device is pushed to open and close at different angles, so that the stability between the connecting partition plate and the shell is controlled;

the ejector is provided with the clamping rod and the pushing rod, and when the ejector is ejected, the clamping rod drives the pushing rod to move in the limiting rod, so that the pushing rod drives the clamping device to work;

the push rod is provided with the plate wing and the spring, the plate wing is arranged on the clamping rod, the clamping rod is driven to be embedded on the limiting rod through the plate wing, so that the push rod is pushed out, and the push rod can rebound through the cooperation of the spring when the push rod is pushed out;

the push rod is provided with the folded plate, so that when the push rod is pushed out, the folded plate at one end of the push rod is clamped on the limiting rod, and the push rod is prevented from rebounding randomly;

the clamping device is provided with the folding plates and the rotating shaft, when the push rod is pushed out, the folding plates are embedded between the folding plates and are propped open by the folding plates on the push rod, so that the folding plates are matched with the rotating shaft to be propped open to form a certain angle, and the folding plates are clamped between the connecting partition plate and the shell;

through being equipped with a folded sheet, the folded sheet is equipped with reset spring, when the folded sheet opens, draws the folded sheet through reset spring and closes to the flexibility through reset spring control folded sheet.

Promote the catch bar through the impeller and remove in the gag lever post, thereby under the mating reaction of gag lever post, make the book on the catch bar dry and form the toper, thereby among the card income card fastener, strut the folded sheet, the folded sheet opens and closes under reset spring's cooperation, thereby the angle that the control folded sheet opened and closes, and then the steadiness of being connected between control connection baffle and the casing, the hydraulic motor of being convenient for reduces the atress of connecting baffle department when carrying out great moment of torsion rotation, guarantee hydraulic motor's stability.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a high creep rate and high strength hydraulic motor according to the present invention.

FIG. 2 is a schematic side view of the connecting partition board of the present invention.

FIG. 3 is a schematic view of the internal structure of the connecting partition plate of the present invention.

FIG. 4 is a schematic structural view of the push rod of the present invention in a contracted state.

FIG. 5 is a schematic view of the push rod of the present invention in an extended state.

FIG. 6 is a schematic view of the internal structure of the clamping bar of the present invention.

FIG. 7 is a cross-sectional view of the stop of the present invention.

FIG. 8 is a schematic front view of the fastener of the present invention.

FIG. 9 is a side view of the retainer of the present invention.

In the figure: the device comprises a mounting flange 1, a shell 2, an output shaft 10, a gasket 11, a rotor 20, a controller 21, a connecting partition plate 22, an ejector 220, a limiting rod 221, a clamping device 222, a clamping rod A, a pushing rod B, a plate wing A1, a spring A2, a folded plate B1, a folded plate C, a rotating shaft D and a return spring C1.

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.

Referring to fig. 1-9, the present invention provides a high creep rate and high strength hydraulic motor, which comprises: the structure of the mounting flange comprises a mounting flange 1 and a shell 2, wherein the mounting flange 1 is connected to the shell 2 through a bolt, the shell 2 is connected with the mounting flange 1 through a bolt, the mounting flange 1 is provided with an output shaft 10 and a gasket 11, the output shaft 10 is embedded on the mounting flange 1, and the gasket 11 is embedded between the output shaft 10 and the mounting flange 1; the shell 2 is provided with a rotor 20, a controller 21 and a connecting partition plate 22, the rotor 20 is welded on the outer surface of the shell 2, the controller 21 is welded at one end of the shell 2, the connecting partition plate 22 is embedded between the shell 2 and the controller 21, the connecting partition plate 22 is provided with an ejector 220, a limiting rod 221 and a clamping device 222, the ejector 220 is embedded inside the limiting rod 221, the limiting rod 221 is embedded on the connecting partition plate 22, the clamping device 222 is embedded inside the connecting partition plate 22, the ejector 220 is used for pushing the clamping device 222 to work, the limiting rod 221 is used for assisting the ejector 220 to work, the clamping device 220 is used for improving the connection stability of the connecting partition plate 22, the ejector 220 is provided with a clamping rod A and a pushing rod B, the clamping rod A is embedded inside the limiting rod 221, the pushing rod B is embedded inside the clamping rod A, the clamping rod A is used for pushing the pushing rod B to move in the limiting rod, the pushing rod B is used for pushing the card holder 222 to work, the card rod a is provided with a plate wing a1 and a spring a2, the plate wing a1 is welded on the outer surface of the card rod a, the spring a2 is welded between the card rod a and the pushing rod B, the plate wing a1 is used for driving the limiting rod 221 to rotate, the spring a2 is used for matching with the pushing rod B to work, the pushing rod B is provided with a folded plate B1, the folded plate B1 is embedded at one end of the pushing rod B, the folded plate B1 is used for matching with the limiting rod 221 so as to control the opening and closing angle of the card holder 222, the card holder 222 is provided with a folded plate C and a rotating shaft D, the folded plate C is embedded on the rotating shaft D, the rotating shaft D is embedded inside the connecting partition plate 222, the folded plate C is used for reinforcing the connection between the shell 2 and the connecting partition plate 22 when the folded plate is opened and closed, the rotating shaft D is used for driving the folded plate C to open and close, the return spring C1 is welded between the folding plates C, and the return spring C1 is used for matching the folding plates C to open and close, so that the angle of the folding plates C is controlled.

When the device is used, the ejector 220 is pushed, so that the pusher 220 enters the limiting rod 221 and moves in the limiting rod 221, the pusher 220 is driven to enter the middle of the clamping device 222, the clamping device 222 is pushed to open and close at different angles, and the stability between the connecting partition plate 22 and the shell 2 is controlled; when the ejector 220 is ejected, the clamping rod a drives the pushing rod B to move in the limiting rod 221, so that the pushing rod B drives the clamping device 222 to work; the clamping rod A is provided with a plate wing A1, the clamping rod A is driven to be embedded on the limiting rod 221 through a plate wing A1, so that the push rod B is pushed out, and the push rod B can rebound through the matching of a spring A2 when the push rod B is pushed out; when the push rod B is pushed out, a folded plate B1 at one end of the push rod B is clamped on the limiting rod 221, so that the push rod B is prevented from rebounding randomly; when the push rod B is pushed out, the folded plate B1 is embedded between the folded plates C, and the folded plates C are spread by the folded plate B1 on the push rod B, so that the folded plates C are matched with the rotating shaft D to be spread to form a certain angle, and the folded plates C are clamped between the connecting partition plate 22 and the shell 2; when the folding plates C are opened, the folding plates C are pulled to be closed by the return spring C1, thereby controlling the flexibility of the folding plates C by the return spring C1.

Compared with the prior art, the invention has the technical progress that:

promote the catch bar through the impeller and remove in the gag lever post, thereby under the mating reaction of gag lever post, make the book on the catch bar dry and form the toper, thereby among the card income card fastener, strut the folded sheet, the folded sheet opens and closes under reset spring's cooperation, thereby the angle that the control folded sheet opened and closes, and then the steadiness of being connected between control connection baffle and the casing, the hydraulic motor of being convenient for reduces the atress of connecting baffle department when carrying out great moment of torsion rotation, guarantee hydraulic motor's stability.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a high creep rate high strength hydraulic motor, its structure includes mounting flange (1), casing (2), mounting flange (1) is through bolted connection on casing (2), casing (2) are connected its characterized in that with mounting flange (1) through the bolt:

the mounting flange (1) is provided with an output shaft (10) and a gasket (11), the output shaft (10) is embedded on the mounting flange (1), and the gasket (11) is embedded between the output shaft (10) and the mounting flange (1);

casing (2) are equipped with rotor (20), controller (21), connect baffle (22), rotor (20) are through welding on casing (2) surface, controller (21) weld in casing (2) one end, it inlays and locates between casing (2) and controller (21) to connect baffle (22).

2. A high creep rate high strength hydraulic motor according to claim 1, wherein: the connecting partition plate (22) is provided with an ejector (220), a limiting rod (221) and a clamping device (222), the ejector (220) is embedded inside the limiting rod (221), the limiting rod (221) is embedded on the connecting partition plate (22), and the clamping device (222) is embedded inside the connecting partition plate (22).

3. A high creep rate high strength hydraulic motor according to claim 2, wherein: ejector (220) are equipped with kelly (A), catch bar (B), inside kelly (221) were inlayed and are located gag lever post (A), inside catch bar (B) inlayed and are located kelly (A).

4. A high creep rate high strength hydraulic motor according to claim 3, wherein: card pole (A) are equipped with board wing (A1), spring (A2), board wing (A1) weld on card pole (A) surface, spring (A2) weld between card pole (A) and catch bar (B).

5. A high creep rate high strength hydraulic motor according to claim 3, wherein: the push rod (B) is provided with a folded plate (B1), and the folded plate (B1) is embedded at one end of the push rod (B).

6. A high creep rate high strength hydraulic motor according to claim 2, wherein: the clamping device (222) is provided with a folding plate (C) and a rotating shaft (D), the folding plate (C) is embedded in the rotating shaft (D), and the rotating shaft (D) is embedded in the connecting partition plate (222).

7. The high creep rate high strength hydraulic motor according to claim 6, wherein: the folding plates (C) are provided with return springs (C1), and the return springs (C1) are welded between the folding plates (C).

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