CN111266666A

CN111266666A - All-round gear polisher

Info

Publication number: CN111266666A
Application number: CN202010288401.7A
Authority: CN
Inventors: 宋军
Original assignee: Hangzhou Ganghe Machinery Technology Co Ltd
Current assignee: Hangzhou Fuyang Jiandun Door And Window Technology Co ltd
Priority date: 2020-04-14
Filing date: 2020-04-14
Publication date: 2020-06-12
Anticipated expiration: 2040-04-14
Also published as: CN111266666B

Abstract

An omnibearing gear grinding machine comprises a working box body, wherein a power cavity is arranged in the working box body, a grinding cavity positioned at the upper right side of the power cavity is arranged in the working box body, a transmission cavity positioned at the left side of the grinding cavity is arranged in the working box body, and a material conveying cavity positioned at the upper side of the grinding cavity is arranged in the working box body; the gear grinding machine can automatically feed the gear into the grinding cavity, comprehensively grind the tooth grooves and the tooth top surfaces of the gear, automatically feed the gear into the collecting box when the gear is ground, simultaneously grind the teeth and the tooth top surfaces of the gear, do not need workers to perform secondary processing, and improve the working efficiency of the gear grinding.

Description

All-round gear polisher

Technical Field

The invention relates to the technical field of gear grinding, in particular to equipment applied to comprehensive grinding of gears.

Background

The gear is a mechanical element with a gear on a wheel rim for continuously meshing and transmitting motion and power, and the gear is stable in transmission, so that the gear is widely applied to the fields of automobiles, tractors, engineering machinery, ships, machine tools, mining machinery and the like, and the precision requirement on the gear is very strict, so that the precision of the gear needs to be improved by polishing in the processing process.

Disclosure of Invention

The invention aims to provide an all-directional gear grinding machine, which overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to an all-directional gear grinding machine which comprises a working box body, wherein a power cavity is arranged in the working box body, a grinding cavity positioned at the right upper side of the power cavity is arranged in the working box body, a transmission cavity positioned at the left side of the grinding cavity is arranged in the working box body, a material conveying cavity positioned at the upper side of the grinding cavity is arranged in the working box body, the material conveying cavity is opened towards the right, a gear support capable of sliding up and down is arranged in the bottom wall of the grinding cavity, a sliding chute is arranged in the rear wall of the grinding cavity, the sliding chute support can be installed in the sliding chute in a vertical sliding manner, a tooth socket brush base is arranged in the sliding chute support in a rotating manner, a tooth socket brush is arranged at the upper side of the tooth socket brush base, the tooth socket brush is inserted into a tooth socket of a gear to be machined, the interior of the tooth socket brush base is hollow, the gear support is, the utility model discloses a gear grinding machine, including grinding chamber, rotary main shaft, the rotary main shaft passes the gear holds in the palm, the rotary main shaft inserts in waiting to process the gear hole of gear, it is equipped with the slip chamber to grind chamber back wall bilateral symmetry, be equipped with the slider that can the horizontal slip in the slip chamber, the slider is close to a side end face each other and is fixed and is equipped with flexible row brush, flexible row brush is used for polishing the top surface of waiting to process the gear tooth, but the horizontal motion is used for the promotion kicking block that the waiting to process gear that will polish the completion released in the.

Furthermore, a first motor is arranged in the power cavity and is in power connection with the lower end of the rotating main shaft.

Further, the fixed second motor that is equipped with of power cavity back wall, the fixed first helical gear that is equipped with on the motor spindle of second motor, rotate on the power cavity back wall be equipped with the second helical gear of first helical gear meshing, the rotation is equipped with the carousel in the power cavity, the installation axle of carousel with connect through belt pulley transmission between the installation axle of second helical gear, be equipped with the gangbar that can the horizontal slip in the chamber of polishing, the fixed armature that is equipped with in gangbar left end, the outer disc of tooth's socket brush base rotates and is equipped with the electro-magnet, the gangbar with articulated the hinge bar of installing between the carousel, be equipped with in the tooth's socket brush base inner wall and be located the left linkage hole of armature, run through about the linkage hole, the outer disc of gear support is equipped with the ring channel.

Further, a motor transmission gear is fixedly arranged on the motor spindle, a spline shaft is arranged in the power cavity and can slide up and down, a transmission gear meshed with the motor transmission gear is fixedly arranged on the spline shaft, the upper side of the spline shaft extends into the transmission cavity, an electromagnet cavity is arranged in the rear wall of the transmission cavity, a guide rail slider is arranged in the electromagnet cavity in a sliding manner, a reset spring is arranged between the electromagnet cavity and the guide rail slider, the guide rail slider is rotationally connected with the spline shaft, when the electromagnet releases the guide rail slider, a cam shaft is arranged on the top wall of the transmission cavity in a rotating manner, a spline hole with a downward opening is arranged in the cam shaft, the guide rail slider drives the spline shaft to ascend, the spline shaft is inserted into the spline hole in the cam shaft, and a positioning block is fixedly arranged on the outer circular, the rear wall of the transmission cavity is rotatably provided with a connecting rod shaft, a latch connecting rod is fixedly arranged on the connecting rod shaft, a brake gear is fixedly arranged on the cam shaft, when the spline shaft descends to be separated from the cam shaft, the positioning block presses the lower side of the latch connecting rod to enable the upper side of the latch connecting rod to clamp the brake gear, a jacking spring is connected between the right side of the latch connecting rod and the inner wall of the transmission cavity, a cam is fixedly arranged on the cam shaft and abuts against the slider on the left side, a compression spring is connected between the slider and the inner wall of the sliding cavity, the slider on the left side is fixedly provided with a pull wire, the rear wall of the grinding cavity is rotatably provided with a lever, the lever is positioned on the right side of the slider on the right side, the right end of the pull wire is fixedly connected to the lower side of the lever, and when the slider on the left side moves rightwards, the slider on the right side is moved to the left.

Furthermore, an axle seat is fixedly arranged at the lower end of the gear support, a v-shaped short rod is rotatably connected with the axle seat, the v-shaped short rod is fixed, a v-shaped long rod shaft rotatably mounted on the rear wall of the power cavity is arranged on the left side of the v-shaped short rod shaft, a free rod rotatably connected through the free shaft is arranged between the v-shaped long rod shaft and the v-shaped short rod shaft, the gear support moves upwards to drive the upper end of the v-shaped long rod to move rightwards, the upper end of the v-shaped long rod extends into the material conveying cavity, and the pushing ejector block in the material conveying cavity is hinged to the upper end of the v-shaped long rod.

Furthermore, a collecting box positioned on the lower side of the right opening of the material conveying cavity is fixedly arranged on the right end face of the working box body.

Further, fortune material chamber upside sets up a pay-off chamber that link up, pay-off chamber intercommunication external with the chamber of polishing the fixed hydraulic press that is provided with on work box top the hydraulic press right side is fixed and is provided with a storage vat, the storage chamber storage in the storage vat waits to process the gear, store the vat bottom wait to process the gear and push the pay-off chamber, wait to process the gear and pass through the pay-off chamber gets into the chamber of polishing, the fixed cowl that is equipped with of work box up end encircles the pay-off chamber sets up.

The invention has the beneficial effects that: the gear grinding machine can automatically feed the gear into the grinding cavity, comprehensively grind the tooth grooves and the tooth top surfaces of the gear, automatically feed the gear into the collecting box when the gear is ground, simultaneously grind the teeth and the tooth top surfaces of the gear, do not need workers to perform secondary processing, and improve the working efficiency of the gear grinding.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the construction of the work box of FIG. 1;

FIG. 3 is a schematic top view of the structure of FIG. 1;

FIG. 4 is a schematic view of the structure at A in FIG. 1;

FIG. 5 is a schematic view of the gear carrier of FIG. 1;

FIG. 6 is a schematic top view of the overall structure of FIG. 1;

FIG. 7 is a schematic view of the gear structure during processing of FIG. 1;

fig. 8 is a schematic view of the cam of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to the accompanying drawings 1-8, the device for comprehensively polishing gears comprises a working box body 200, wherein a power cavity 49 is arranged in the working box body 200, a polishing cavity 30 positioned at the upper right side of the power cavity 49 is arranged in the working box body 200, a transmission cavity 55 positioned at the left side of the polishing cavity 30 is arranged in the working box body 200, a material conveying cavity 24 positioned at the upper side of the polishing cavity 30 is arranged in the working box body 200, the material conveying cavity 24 is opened towards the right, a gear support 33 capable of sliding up and down is arranged in the bottom wall of the polishing cavity 30, a chute 26 is arranged in the rear wall of the polishing cavity 30, the chute support 27 is slidably arranged in the chute 26 up and down, a tooth socket brush base 31 is rotatably arranged in the chute support 27, a tooth socket brush 65 is arranged at the upper side of the tooth socket brush base 31, and the tooth socket brush 65 is inserted into a tooth socket of a gear 10 to be processed, the inside cavity that is of gullet brush base 31, gear support 33 is located in gullet brush base 31, it is equipped with rotating spindle 41 to rotate in the chamber 30 diapire of polishing, rotating spindle 41 passes gear support 33, rotating spindle 41 inserts in the gear hole 300 of waiting to process gear 10, the chamber 30 back wall bilateral symmetry of polishing is equipped with sliding chamber 20, but be equipped with horizontal slip's slider 58 in the sliding chamber 20, slider 58 is close to a side end face each other and is fixed and is equipped with flexible row brush 67, flexible row brush 67 is used for polishing the addendum face of waiting to process gear 10, but horizontal motion is used for the promotion kicking block 13 that waits to process gear 19 to push out that will polish the completion in the fortune material chamber 24.

Advantageously, a first motor 36 is arranged in said power chamber 49, said first motor 36 being in power connection with the lower end of said rotary spindle 41.

Advantageously, the rear wall of the power cavity 49 is fixedly provided with a second motor 44, a motor spindle 45 of the second motor 44 is fixedly provided with a first bevel gear 46, a second bevel gear 47 meshed with the first bevel gear 46 is rotatably arranged on the rear wall of the power cavity 49, the power cavity 49 is provided with a rotary disc 38 in a rotating way, a mounting shaft of the rotary disc 38 is in transmission connection with a mounting shaft of the second bevel gear 47 through a belt pulley 42, a linkage rod 80 capable of sliding left and right is arranged in the grinding cavity 30, an armature 83 is fixedly arranged at the left end of the linkage rod 80, an electromagnet 86 is rotatably arranged on the outer circular surface of the tooth socket brush base 31, a hinge rod 34 is hinged between the linkage rod 80 and the rotary disc 38, a linkage hole 63 positioned on the left side of the armature 83 is formed in the inner wall of the tooth space brush base 31, the linkage hole 63 penetrates left and right, and an annular groove 29 is formed in the outer circular surface of the gear support 33.

Advantageously, a motor transmission gear 43 is fixedly arranged on the motor spindle 45, a spline shaft 50 is arranged in the power cavity 49, the spline shaft 50 can slide up and down, a transmission gear 48 engaged with the motor transmission gear 43 is fixedly arranged on the spline shaft 50, the upper side of the spline shaft 50 extends into the transmission cavity 55, an electromagnet cavity 54 is arranged in the rear wall of the transmission cavity 55, a guide rail sliding block 53 is arranged in the electromagnet cavity 54 in a sliding manner, a return spring 52 is arranged between the electromagnet cavity 54 and the guide rail sliding block 53, the guide rail sliding block 53 is rotatably connected with the spline shaft 50, when the electromagnet 51 releases the guide rail sliding block 53, the top wall of the transmission cavity 55 is rotatably provided with a cam shaft 72, a downward-opening spline hole is arranged in the cam shaft 72, the guide rail sliding block 53 drives the spline shaft 50 to ascend, and then the spline shaft 50 is inserted into the spline hole in, a positioning block 79 is fixedly arranged on the outer circular surface of the spline shaft 50, a connecting rod shaft 76 is rotatably arranged on the rear wall of the transmission cavity 55, a latch connecting rod 77 is fixedly arranged on the connecting rod shaft 76, a brake gear 71 is fixedly arranged on the cam shaft 72, when the spline shaft 50 descends to be separated from the cam shaft 72, the positioning block 79 presses the lower side of the latch connecting rod 77, so that the brake gear 71 is clamped by the upper side of the latch connecting rod 77, a jacking spring 75 is connected between the right side of the latch connecting rod 77 and the inner wall of the transmission cavity 55, a cam 57 is fixedly arranged on the cam shaft 72, the cam 57 abuts against the left side of the slider 58, a compression spring 22 is connected between the slider 58 and the inner wall of the sliding cavity 20, a pull wire 59 is fixedly arranged on the slider 58 on the left side of the polishing cavity 30, a lever 23, the right end of the pull wire 59 is fixedly connected to the lower side of the lever 23, and when the left slide block 58 moves rightwards, the pull wire 59 drives the upper end of the lever 23 to press the right slide block 58, so that the right slide block 58 moves leftwards.

Advantageously, the lower end of the gear support 33 is fixedly provided with a shaft seat 119, a v-shaped short rod 117 is rotatably connected with the shaft seat 119, a v-shaped short rod shaft 116 is fixedly arranged, the left side of the v-shaped short rod shaft 116 is provided with a v-shaped long rod shaft 112 rotatably mounted on the rear wall of the power cavity 49, a free rod 114 rotatably connected through a free shaft 115 is arranged between the v-shaped long rod shaft 112 and the v-shaped short rod shaft 116, the gear support 33 moves upwards to drive the upper end of the v-shaped long rod 91 to move rightwards, the upper end of the v-shaped long rod 91 extends into the material conveying cavity 24, and the pushing top block 13 in the material conveying cavity 24 is hinged to the upper end of the v-shaped long rod 91.

Advantageously, the right end face of the work box 200 is fixedly provided with a collection box 28 located on the lower side of the right opening of the load chamber 24.

Beneficially, a through feeding cavity 16 is arranged on the upper side of the feeding cavity 24, the feeding cavity 16 is communicated with the outside and the grinding cavity 30, a hydraulic machine 60 is fixedly arranged at the top end of the working box body 200, a storage barrel 14 is fixedly arranged on the right side of the hydraulic machine 60, a storage cavity 12 in the storage barrel 14 stores a gear 10 to be machined, the gear 10 to be machined at the bottom of the storage barrel 14 is pushed into the feeding cavity 16 by the hydraulic machine 60, the gear 10 to be machined enters the grinding cavity 30 through the feeding cavity 16, and an arc-shaped baffle 18 arranged around the feeding cavity 16 is fixedly arranged on the upper end face of the working box body 200.

The working steps are as follows: the gear 10 to be processed is put into the storage barrel cavity 12 in the storage barrel 14, when the hydraulic machine 60 is started, the hydraulic machine 60 works to push the gear at the bottom of the storage barrel cavity 12 into the feeding cavity 16, the gear 10 to be processed falls on the gear support 33, the rotating main shaft 41 penetrates through the gear hole 300 of the gear 10 to be processed, the tooth space brush 65 is inserted into the tooth space, the first motor 36 is started to drive the rotating main shaft 41 to rotate, the rotating main shaft 41 drives the processing gear 19, the tooth space brush 65 inserted into the tooth space and the tooth space brush base 31 to rotate, the second motor 44 is started, the motor transmission gear 43 is in meshing transmission with the transmission gear 48, the electromagnet 51 releases the guide rail slide block 53, the spline shaft 50 moves upwards, the cam connecting rod 72 is inserted, the transmission gear 48 drives the spline shaft 50 and the cam 58 to rotate, the cam 58 pushes the left side slide block 58 to move forwards in the sliding cavity 20, when the left side slide block 58, the lever 23 presses the right slider 58 leftwards to move leftwards, and when the flexible brush 67 touches the tooth top surface of the gear 10 to be processed; when the second motor 44 is started, the shaft of the second bevel gear 47 is rotationally connected with the shaft of the rotary disc 38 through the belt pulley 42, the rotary disc 38 rotates to drive the hinge rod 34 to move, so that the linkage rod 80 and the tooth space brush base 31 do up-and-down reciprocating motion, when the gear machining is completed, the linkage rod 80 is pressed down, the round rod 83 is inserted into the clamping groove 29, at this time, the crank block mechanism is linked with the gear support 33, the gear support 33 moves upwards to drive the v-shaped short rod 117 to rotate around the shaft 116 to drive the v-shaped long rod 91 to move rightwards, the ejector block 13 is pushed to move forwards, at this time, the gear support 33 pulls the machining gear 19 into the feeding cavity 16, the ejector block 13 pushes the gear 19 out of the machining middle gear 19 out of the feeding cavity 16 to enter.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an all-round gear polisher, includes the work box, be provided with power chamber, its characterized in that in the work box: the grinding machine is characterized in that a grinding cavity positioned at the upper right side of the power cavity is arranged in the working box body, a transmission cavity positioned at the left side of the grinding cavity is arranged in the working box body, a material conveying cavity positioned at the upper side of the grinding cavity is arranged in the working box body, the material conveying cavity is opened towards the right, a gear support capable of sliding up and down is arranged in the bottom wall of the grinding cavity, a chute is arranged in the rear wall of the grinding cavity, the chute support can be slidably arranged in the chute up and down, a tooth socket brush base is rotatably arranged in the chute support, a tooth socket brush is arranged at the upper side of the tooth socket brush base, the tooth socket brush is inserted into a tooth socket of a gear to be machined, the interior of the tooth socket brush base is hollow, the gear support is positioned in the tooth socket brush base, a rotating main shaft is rotatably arranged in the bottom wall of the grinding cavity, the rotating main shaft penetrates through, the grinding machine is characterized in that a sliding cavity is symmetrically formed in the left and right of the rear wall of the grinding cavity, a sliding block capable of sliding left and right is arranged in the sliding cavity, the sliding block is close to one side end face and fixedly provided with a flexible row brush, the flexible row brush is used for grinding the top surface of a gear to be machined, and the material conveying cavity can move left and right to push a pushing top block which is used for pushing out the gear to be machined and is ground.

2. The all-directional gear sander of claim 1, wherein: and a first motor is arranged in the power cavity and is in power connection with the lower end of the rotating main shaft.

3. The all-directional gear sander of claim 1, wherein: the fixed second motor that is equipped with of power cavity back wall, the fixed first helical gear that is equipped with on the motor spindle of second motor, rotate on the power cavity back wall be equipped with first helical gear meshing's second helical gear, it is equipped with the carousel to rotate in the power cavity, the installation axle of carousel with connect through belt pulley transmission between the installation axle of second helical gear, but be equipped with horizontal slip's gangbar in the chamber of polishing, the fixed armature that is equipped with in gangbar left end, the outer disc of tooth's socket brush base rotates and is equipped with the electro-magnet, the gangbar with articulated hinge bar of installing between the carousel, be equipped with in the tooth's socket brush base inner wall and be located the left linkage hole of armature, run through about the linkage hole, the outer disc of gear support is equipped with the ring channel.

4. The all-directional gear sander of claim 3, wherein: a motor transmission gear is fixedly arranged on the motor spindle, a spline shaft is arranged in the power cavity and can slide up and down, a transmission gear meshed with the motor transmission gear is fixedly arranged on the spline shaft, the upper side of the spline shaft extends into the transmission cavity, an electromagnet cavity is arranged in the rear wall of the transmission cavity, a guide rail slider is arranged in the electromagnet cavity in a sliding manner, a reset spring is arranged between the electromagnet cavity and the guide rail slider, the guide rail slider is rotationally connected with the spline shaft, when the electromagnet releases the guide rail slider, a cam shaft is arranged on the top wall of the transmission cavity in a rotating manner, a spline hole with a downward opening is arranged in the cam shaft, the guide rail slider drives the spline shaft to ascend, the spline shaft is inserted into the spline hole in the cam shaft, a positioning block is fixedly arranged on the outer circular surface of the spline shaft, and a connecting, a latch connecting rod is fixedly arranged on the connecting rod shaft, a brake gear is fixedly arranged on the cam shaft, when the spline shaft descends to be separated from the cam shaft, the positioning block presses down the lower side of the latch connecting rod to enable the upper side of the latch connecting rod to block the brake gear, a jacking spring is connected between the right side of the latch connecting rod and the inner wall of the transmission cavity, a cam is fixedly arranged on the cam shaft, the cam is pressed against the slide block on the left side, a compression spring is connected between the slide block and the inner wall of the sliding cavity, a pull wire is fixedly arranged on the slide block on the left side, a lever is rotatably arranged on the rear wall of the grinding cavity, the lever is positioned on the right side of the right slide block, the right end of the pull wire is fixedly connected with the lower side of the lever, when the left slide block moves rightwards, the pull wire drives the upper end of the lever to press the right slide block, so that the right slide block moves leftwards.

5. The all-directional gear sander of claim 1, wherein: the gear support is fixedly provided with a shaft seat at the lower end, a v-shaped short rod is rotatably connected with the shaft seat, the v-shaped short rod is fixed, a v-shaped long rod shaft rotatably mounted on the rear wall of the power cavity is arranged on the left side of the v-shaped short rod shaft, a free rod rotatably connected through the free shaft is arranged between the v-shaped long rod shaft and the v-shaped short rod shaft, the gear support moves upwards to drive the upper end of the v-shaped long rod to move rightwards, the upper end of the v-shaped long rod extends into the material conveying cavity, and the pushing ejector block in the material conveying cavity is hinged to the upper end of the v-shaped long rod.

6. The all-directional gear sander of claim 1, wherein: and a collecting box positioned on the lower side of the right opening of the material conveying cavity is fixedly arranged on the right end face of the working box body.

7. The all-directional gear sander of claim 6, wherein: fortune material chamber upside sets up a pay-off chamber that link up, pay-off chamber intercommunication external with the chamber of polishing the fixed hydraulic press that is provided with on work box top the fixed storage vat that is provided with in hydraulic press right side, storage chamber in the storage vat stores and treats the processing gear, store the bottom of the barrel it pushes to treat the processing gear the pay-off chamber, treat that the processing gear passes through the pay-off chamber gets into the chamber of polishing, the fixed cowl that encircles the pay-off chamber sets up that is equipped with of work box up end.