CN112555290A

CN112555290A - Drive shaft assembly for improving positioning precision of drive shaft

Info

Publication number: CN112555290A
Application number: CN202011296298.7A
Authority: CN
Inventors: 倪翔
Original assignee: Individual
Current assignee: Shenzhen Hailan Intelligent Technology Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-03-26
Anticipated expiration: 2040-11-18
Also published as: CN112555290B

Abstract

The invention discloses a driving shaft assembly for improving the positioning precision of a driving shaft, which comprises a driving shaft main body, a brake connecting end, a fixed disc, a positioning and calibrating reinforced block and a positioning and locking mechanism.

Description

Drive shaft assembly for improving positioning precision of drive shaft

Technical Field

The invention relates to the technical field of driving shafts, in particular to a driving shaft assembly capable of improving positioning accuracy of a driving shaft.

Background

The driving shaft is one of loader working devices and is a device capable of pushing smoothness of the loader so that the driving wheels can rotate according to different angular speeds, and the driving shaft is a set of transmission devices used for transmitting torque and rotary motion output by a speed change mechanism (a gearbox, a reducer, a rear main reducer and the like) to the driving wheels; the driving shaft can be divided into two sections and three sections according to different arrangement structures of the driving shaft; according to the difference of the arrangement positions of the driving shaft in the whole vehicle, the driving shaft can be divided into a front driving shaft and a rear driving shaft; one end of the front driving shaft is connected with a differential mechanism, and is limited and fixed by a differential spring ring; the other end is connected with a brake assembly and is fixed through a locking nut or a screw, and the driving shaft generally comprises a fixed joint assembly, a movable joint assembly, a shaft lever, a locking nut, a gasket and the like.

When the driving shaft is installed and positioned, in the prior art, when one end of the driving shaft and a brake assembly are installed and fixed, the driving shaft and the brake assembly are positioned and installed in the same line, in the process of screwing the screw or the nut, the position of the driving shaft may deviate, the actual installation fixing position deviates from the ideal position, the positioning and installation work quality of the driving shaft is further reduced, and the normal operation of the driving work of the driving shaft may be influenced.

Disclosure of Invention

The present invention is directed to a drive shaft assembly for improving the positioning accuracy of a drive shaft, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a drive shaft assembly for improving the positioning accuracy of a drive shaft comprises a drive shaft main body, a brake connecting end, a fixed disc, a positioning and calibrating reinforcing block and a positioning and locking mechanism;

a fixed disc is arranged at one end of the driving shaft main body, a circular slot is arranged in the brake connecting end, a thread groove and a connecting square groove are symmetrically arranged in the brake connecting end, a screw is arranged in the thread groove in a threaded connection mode, a positioning side groove is symmetrically arranged at the side of the circular slot, and a circular connecting insertion block is arranged in the positioning side groove in an inserting connection mode;

the circular connecting insertion blocks are arranged on one side of the fixed disc, positioning lugs are arranged on the outer side wall of each circular connecting insertion block at equal intervals, and positioning auxiliary blocks penetrate through the fixed disc at equal intervals;

a movable strip is movably arranged in the positioning auxiliary block, a first return spring is arranged at one end of the movable strip, the other end of the first return spring is arranged in the positioning auxiliary block, a movable groove is formed in the movable strip, extrusion fixing blocks are symmetrically arranged in the movable groove, a first extrusion inclined plane is arranged at one end of each extrusion fixing block, and a movable extrusion block is movably arranged at one side of the movable strip in the positioning auxiliary block;

one end of the movable extrusion block is movably arranged in the positioning calibration reinforced block, one end of the movable extrusion block is provided with a second reset spring, the other end of the second reset spring is arranged in the positioning calibration reinforced block, the positioning calibration reinforced block is provided with a third reset spring at the same end with the movable extrusion block, and one end of the movable extrusion block is provided with a second extrusion inclined surface;

and one end of the positioning auxiliary block is connected with a positioning locking mechanism.

Preferably, the positioning and locking mechanism comprises a fixing ring, a first movable clamping block, a second movable clamping block, a fixed clamping groove, a movable lantern ring, an extrusion arc chute, a circular groove, a positioning clamping column, an arc fixing block, a first movable extrusion column and a second movable extrusion column, the fixing ring is arranged on the positioning auxiliary block, the first movable clamping block is movably arranged in the fixing ring, the second movable clamping block is arranged at one end of the first movable clamping block, a fourth reset spring is arranged at the same end of the first movable clamping block and the second movable clamping block, the fixed clamping groove is arranged at one side of the movable strip, the movable lantern ring is sleeved on the fixing ring, the extrusion arc chute is arranged in the movable lantern ring, the circular groove is arranged at one side of the movable lantern ring, the positioning clamping column is movably arranged in the circular groove, the extrusion spring is arranged at one end of the positioning clamping column, the arc fixed block sets up on solid fixed ring to the activity is provided with first activity extrusion post in the arc fixed block, the one end of first activity extrusion post is provided with second activity extrusion post, and first activity extrusion post is provided with fifth reset spring with the same end of second activity extrusion post.

Preferably, the positioning auxiliary blocks correspond to the connecting square grooves on the brake connecting end in arrangement positions and are arranged in the same number, and the cross section of the end parts of the positioning auxiliary blocks is the same as that of the notches of the connecting square grooves, namely the cross sections of the positioning auxiliary blocks and the notches are equal in length and width.

Preferably, the second movable extrusion column corresponds to the positioning clamp column in arrangement position, and the arrangement diameters of the second movable extrusion column and the positioning clamp column are equal.

Preferably, the fixed clamping groove and the second movable clamping block are arranged at corresponding positions and are arranged in the same number, and the area of the cross section of the notch of the fixed clamping groove is equal to that of the cross section of the end part of the second movable clamping block, namely the side lengths of the cross sections of the fixed clamping groove and the second movable clamping block are equal.

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

the driving shaft can be well positioned by the fixing disc, the circular inserting groove, the positioning side groove, the circular connecting inserting block, the positioning lug, the positioning auxiliary block and the positioning calibration reinforcing block, so that the mounting and fixing connection precision of the driving shaft is improved, the driving shaft is ensured not to generate position deviation during mounting and fixing work, the mounting quality of the driving shaft is ensured, the driving shaft and the brake can be well locked and fixed by the positioning locking mechanism, the connection firmness and the stability of the driving shaft are improved, the driving shaft is prevented from being disordered in the working process, and the normal operation of the driving shaft is ensured.

Drawings

FIG. 1 is a schematic view of a connection structure according to the present invention;

FIG. 2 is a right side view of the connecting structure of the driving shaft main body and the brake connecting end according to the present invention;

FIG. 3 is a left side view of the connecting structure of the driving shaft main body and the brake connecting end according to the present invention;

FIG. 4 is a schematic left side view, partially in section, of an internal connection structure of a fixing disk according to the present invention;

FIG. 5 is an enlarged view of a portion of the connection structure of FIG. 4 according to the present invention;

FIG. 6 is a right side view of the internal connection structure of the fixing plate according to the present invention, partially cut away;

fig. 7 is a partially enlarged view of the connection structure shown in fig. 6 according to the present invention.

In the figure: the brake comprises a drive shaft main body 1, a brake connecting end 2, a fixed disc 3, a circular slot 4, a positioning side groove 5, a circular connecting insert block 6, a positioning lug 7, a positioning auxiliary block 8, a movable strip 9, a movable groove 10, an extrusion fixed block 11, a first extrusion inclined plane 12, a movable extrusion block 13, a positioning calibration reinforcing block 14, a second extrusion inclined plane 15, a positioning locking mechanism 16, a fixed ring 1601, a first movable fixture block 1602, a second movable fixture block 1603, a fixed clamping groove 1604, a movable lantern ring 1605, an extrusion arc-shaped chute 1606, a circular groove 1607, a positioning clamping column 1608, an arc-shaped fixed block 1609, a first movable extrusion column 1610 and a second movable extrusion column 1611.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the invention relates to a drive shaft assembly for improving the positioning precision of a drive shaft, which comprises a drive shaft main body 1, a brake connecting end 2, a fixed disc 3, a positioning calibration reinforcing block 14 and a positioning locking mechanism 16;

a fixed disc 3 is arranged at one end of the driving shaft main body 1, a circular slot 4 is arranged in the brake connecting end 2, a thread groove and a connecting square groove are symmetrically arranged in the brake connecting end 2, a screw is arranged in the thread groove in a threaded connection mode, a positioning edge groove 5 is symmetrically arranged at the side of the circular slot 4, and a circular connecting insertion block 6 is arranged in the positioning edge groove 5 in an inserting connection mode;

the circular connecting insertion blocks 6 are arranged on one side of the fixed disc 3, positioning lugs 7 are arranged on the outer side wall of each circular connecting insertion block 6 at equal intervals, and positioning auxiliary blocks 8 penetrate through the fixed disc 3 at equal intervals;

a movable strip 9 is movably arranged in the positioning auxiliary block 8, one end of the movable strip 9 is provided with a first return spring, the other end of the first return spring is arranged in the positioning auxiliary block 8, a movable groove 10 is arranged on the movable strip 9, extrusion fixed blocks 11 are symmetrically arranged in the movable groove 10, one end of each extrusion fixed block 11 is provided with a first extrusion inclined plane 12, and a movable extrusion block 13 is movably arranged on one side of the movable strip 9 in the positioning auxiliary block 8;

one end of the movable extrusion block 13 is movably arranged in the positioning calibration reinforced block 14, one end of the movable extrusion block 13 is provided with a second return spring, the other end of the second return spring is arranged in the positioning calibration reinforced block 14, the positioning calibration reinforced block 14 is provided with a third return spring at the same end with the movable extrusion block 13, and one end of the movable extrusion block 13 is provided with a second extrusion inclined surface 15;

one end of the positioning auxiliary block 8 is connected with a positioning locking mechanism 16.

Further, the positioning and locking mechanism 16 includes a fixing ring 1601, a first movable block 1602, a second movable block 1603, a fixed block 1604, a movable collar 1605, an extruded arc chute 1606, a circular groove 1607, a positioning block post 1608, an arc fixed block 1609, a first movable extruded post 1610, a second movable extruded post 1611, the fixing ring 1601 is disposed on the positioning auxiliary block 8, the fixing ring 1601 is movably disposed with the first movable block 1602, one end of the first movable block 1602 is disposed with the second movable block 1603, the first movable block 1602 is disposed with a fourth return spring at the same end as the second movable block 1603, the fixed block 1604 is disposed at one side of the movable bar 9, the movable collar 1605 is sleeved on the fixing ring 1601, the extruded arc chute 1606 is disposed in the movable collar 1605, one side of the movable collar 1605 is disposed with the circular groove 1607, the circular groove 1607 is movably disposed with the positioning block post 1608, one end of the positioning clamp post 1608 is provided with an extrusion spring, the arc-shaped fixing block 1609 is arranged on the fixing ring 1601, a first movable extrusion post 1610 is movably arranged in the arc-shaped fixing block 1609, one end of the first movable extrusion post 1610 is provided with a second movable extrusion post 1611, and the first movable extrusion post 1610 is provided with a fifth return spring at the same end with the second movable extrusion post 1611.

Furthermore, the positioning auxiliary blocks 8 are arranged at positions corresponding to the connecting square grooves on the brake connecting end 2 and have the same number of groups, and the cross section of the end parts of the positioning auxiliary blocks 8 is the same as that of the groove openings of the connecting square grooves, namely the cross sections of the positioning auxiliary blocks and the groove openings are equal in length and width.

Further, the second movable pressing post 1611 corresponds to the position of the positioning pin 1608, and the diameters of the two are equal.

Furthermore, the fixed clamping groove 1604 corresponds to the second movable clamping block 1603 in arrangement position and is provided with the same number of groups, and the area of the cross section of the notch of the fixed clamping groove 1604 is equal to that of the cross section of the end of the second movable clamping block 1603, namely the side length of the cross sections of the fixed clamping groove 1604 and the second movable clamping block 1603 is equal.

The working principle is as follows: when the invention is used for installing, connecting and fixing the driving shaft, firstly, the circular connecting and inserting block 6 on the fixed disc 3 arranged at the end part of the driving shaft main body 1 is inserted into the circular slot 4 on the brake connecting end 2, meanwhile, the positioning lug 7 arranged at the side of the circular connecting and inserting block 6 is clamped in the positioning side slot 5, the positioning auxiliary block 8 is clamped in the connecting square slot on the brake connecting end 2, then the movable strip 9 in the positioning auxiliary block 8 is pressed, the movable strip 9 drives the extrusion fixed block 11 in the movable slot 10 to extrude the movable extrusion block 13, the movable extrusion block 13 extrudes the positioning calibration reinforced block 14 through the third return spring, so that the third return spring is in an extrusion state, the positioning calibration reinforced block 14 extrudes the inner side wall of the connecting square slot, and the positioning auxiliary block 8 cannot have loose connecting and positioning in the connecting square slot, the precision of the installation and connection of the driving shaft is ensured, then the movable lantern ring 1605 in the positioning and locking mechanism 16 is rotated, the movable lantern ring 1605 drives the extrusion arc-shaped chute 1606 to extrude the first movable clamping block 1602, the first movable clamping block 1602 pushes the second movable clamping block 1603 to enter the fixed clamping groove 1604 on one side of the movable strip 9, meanwhile, the positioning clamping column 1608 arranged in the arc-shaped fixed block 1609 reaches the position of the second movable extrusion column 1611, the positioning clamping column 1608 is clamped in the arc-shaped fixed block 1609 under the action of an extrusion spring, the movable lantern ring 1605 is fixed, the position of the movable strip 9 is fixed, and finally the screw is installed for fixing, so that the high-precision installation and the connection firmness of the driving shaft can be improved, and the fixed disc 3, the circular slot 4, the positioning side groove 5, the circular connection inserting block 6, the positioning lug 7 and the positioning auxiliary block 8 which are arranged by the invention are adopted, Piece 14 is strengthened in location calibration, can carry out fine position location to the drive shaft, and then improve its installation fixed connection precision, ensure can not produce the skew in installation fixed work time, and then guarantee its installation quality, moreover fixed locking that can carry out fine through the location locking mechanism 16 that sets up is fixed to being connected of drive shaft and stopper is fixed, improve the firm in connection nature and the stability of drive shaft, avoid the drive shaft disorder to appear in the course of the work, and then guarantee the normal clear of its work.

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

Claims

1. The utility model provides an improve drive shaft positioning accuracy drive shaft subassembly which characterized in that: the brake device comprises a driving shaft main body (1), a brake connecting end (2), a fixed disc (3), a positioning calibration reinforcing block (14) and a positioning locking mechanism (16);

a fixed disc (3) is arranged at one end of the driving shaft main body (1), a circular slot (4) is arranged in the brake connecting end (2), a thread groove and a connecting square groove are symmetrically arranged in the brake connecting end (2), a screw is arranged in the thread groove in a threaded connection mode, a positioning side groove (5) is symmetrically arranged at the side of the circular slot (4), and a circular connecting insertion block (6) is arranged in the positioning side groove (5) in an inserting connection mode;

the circular connecting insertion blocks (6) are arranged on one side of the fixed disc (3), positioning lugs (7) are arranged on the outer side wall of each circular connecting insertion block (6) at equal intervals, and positioning auxiliary blocks (8) penetrate through the fixed disc (3) at equal intervals;

a movable strip (9) is movably arranged in the positioning auxiliary block (8), one end of the movable strip (9) is provided with a first return spring, the other end of the first return spring is arranged in the positioning auxiliary block (8), a movable groove (10) is arranged on the movable strip (9), extrusion fixed blocks (11) are symmetrically arranged in the movable groove (10), one end of each extrusion fixed block (11) is provided with a first extrusion inclined surface (12), and a movable extrusion block (13) is movably arranged on one side of the movable strip (9) in the positioning auxiliary block (8);

one end of the movable extrusion block (13) is movably arranged in the positioning calibration reinforced block (14), one end of the movable extrusion block (13) is provided with a second return spring, the other end of the second return spring is arranged in the positioning calibration reinforced block (14), the positioning calibration reinforced block (14) is provided with a third return spring at the same end with the movable extrusion block (13), and one end of the movable extrusion block (13) is provided with a second extrusion inclined plane (15);

and one end of the positioning auxiliary block (8) is connected with a positioning locking mechanism (16).

2. A driveshaft assembly for improving the accuracy of positioning of a driveshaft according to claim 1, wherein: the positioning and locking mechanism (16) comprises a fixing ring (1601), a first movable clamping block (1602), a second movable clamping block (1603), a fixed clamping groove (1604), a movable lantern ring (1605), an extrusion arc chute (1606), a circular groove (1607), a positioning clamp column (1608), an arc fixing block (1609), a first movable extrusion column (1610) and a second movable extrusion column (1611), wherein the fixing ring (1601) is arranged on the positioning auxiliary block (8), the fixing ring (1601) is movably provided with the first movable clamping block (1602), one end of the first movable clamping block (1602) is provided with the second movable clamping block (1603), the first movable clamping block (1602) is provided with a fourth reset spring at the same end as the second movable clamping block (1603), the fixed clamping groove (1604) is arranged on one side of the movable strip (9), the movable lantern ring (1605) is sleeved on the fixing ring (1601), and be provided with extrusion arc chute (1606) in the activity lantern ring (1605), one side of activity lantern ring (1605) is provided with circular recess (1607), the activity is provided with locator card post (1608) in circular recess (1607), and the one end of locator card post (1608) is provided with extrusion spring, arc fixed block (1609) set up on solid fixed ring (1601) to the activity is provided with first activity extrusion post (1610) in arc fixed block (1609), the one end of first activity extrusion post (1610) is provided with second activity extrusion post (1611), and first activity extrusion post (1610) is provided with fifth reset spring with second activity extrusion post (1611) same end.

3. A driveshaft assembly for improving the accuracy of positioning of a driveshaft according to claim 1, wherein: the positioning auxiliary block (8) is corresponding to the arrangement position of the square connecting groove on the brake connecting end (2) and has the same number of groups, and the cross section of the end part of the positioning auxiliary block (8) is the same as that of the groove opening of the square connecting groove, namely the cross sections of the positioning auxiliary block and the groove opening are equal in length and width.

4. A driveshaft assembly for improving the accuracy of positioning of a driveshaft according to claim 2, wherein: the second movable extrusion column (1611) corresponds to the position where the positioning clamp column (1608) is arranged, and the diameters of the two arrangements are equal.

5. A driveshaft assembly for improving the accuracy of positioning of a driveshaft according to claim 2, wherein: the fixed clamping groove (1604) corresponds to the second movable clamping block (1603) in arrangement position and is the same in arrangement number, the area of the cross section of the notch of the fixed clamping groove (1604) is equal to that of the cross section of the end of the second movable clamping block (1603), namely the side length of the cross sections of the fixed clamping groove and the second movable clamping block is equal.