CN212155759U - Integrated gear shifting head - Google Patents

Abstract

The utility model discloses an integrated form shifting block, which comprises a reverse gear return inclined plane, a first and a second gear positioning inclined plane, a first and a second gear return inclined plane, a fifth and a sixth gear return inclined plane, a neutral gear position inclined plane (two), and a shift self-locking inclined plane (two), wherein self-locking, gear selecting balance and reverse gear hand feeling functions are integrated into a whole; the gear engaging shifting block integrates a plurality of gear engaging inclined planes, so that gear engaging operation is completed through one gear engaging shifting block, and the whole gear engaging device occupies small space.

Description

Integrated gear shifting head

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of the gearbox control, concretely relates to integrated form shifting block of putting into gear.

[ background of the invention ]

The 6DS60T partial gearbox is a gearbox specially developed for passenger cars and light trucks, is popular with truck host factories due to strong bearing performance and excellent operation performance since the development, and has independent self-locking spring, gear-selecting balance spring and reverse gear hand feeling spring in the current 6DS60T right operation, thereby occupying larger arrangement space. The left hand operation is subject to space constraints and the three springs cannot be arranged.

[ Utility model ] content

An object of the utility model is to overcome above-mentioned prior art's shortcoming, provide an integrated form shifting block of putting into gear to solve this gearbox right side and control and occupy great arrangement space, control the technical problem that can not arrange three kinds of springs on a left side.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

an integrated gear shifting block is characterized by comprising a cylindrical pipe, wherein a shifting block and a gear shifting end are fixedly arranged on the cylindrical pipe, the vertical central plane of the shifting block is a first central plane, the central plane of the gear shifting end along the length direction of the gear shifting end is a second central plane, and the first central plane and the second central plane are vertical to each other;

the outer end face of the gear engaging end comprises an upper gear engaging self-locking inclined plane and a lower gear engaging self-locking inclined plane, the upper side edge of the upper gear engaging self-locking inclined plane is connected with the upper surface of the gear engaging end, and the lower side edge of the upper gear engaging self-locking inclined plane is connected with an upper neutral gear position inclined plane; the lower side edge of the lower gear engaging self-locking inclined plane is connected with the lower surface of the gear engaging end, and the upper side edge of the lower gear engaging self-locking inclined plane is connected with the neutral position inclined plane; a reverse gear return inclined plane, a first gear positioning inclined plane, a second gear return inclined plane and a fifth-sixth gear return inclined plane are sequentially arranged between the two neutral gear position inclined planes from the left side to the right side of the outer end face of the gear engaging end;

the included angle between the upper gear engaging self-locking inclined plane and the upper surface is an obtuse angle, and the included angle between the lower gear engaging self-locking inclined plane and the lower surface is an obtuse angle; the included angle between the upper gear engaging self-locking inclined plane and the upper neutral position inclined plane is an acute angle, and the included angle between the lower gear engaging self-locking inclined plane and the lower neutral position inclined plane is an acute angle;

the included angle between the reverse gear return inclined plane and the first and second gear positioning inclined planes is an obtuse angle, the included angle between the first and second gear positioning inclined planes and the first and second gear return inclined planes is an obtuse angle, and the included angle between the first and second gear return inclined planes and the fifth and sixth gear return inclined planes is an obtuse angle.

The utility model discloses further improvement lies in:

preferably, the included angle between the extension surfaces of the two gear engaging self-locking inclined surfaces is 60 degrees; the two gear engaging self-locking inclined planes are in mirror symmetry relative to the second central plane.

Preferably, the included angle between the extending surfaces of the two neutral position inclined surfaces is 90 degrees; the two neutral position ramps are mirror images relative to the second central plane.

Preferably, the left side of the reverse gear return inclined plane is longer than the right side.

Preferably, the left side of the first and second gear positioning inclined planes is longer than the right side.

Preferably, the left side of the first return inclined plane and the right side of the second return inclined plane are longer than the right side of the first return inclined plane and the second return inclined plane.

Preferably, the left side of the fifth-sixth gear return inclined plane is shorter than the right side.

Preferably, the axis of the cylindrical tube is on both the first and second central planes.

Preferably, the cylindrical tube is in splined connection with a transverse shift lever, the cylindrical tube is sleeved on the transverse shift lever, and two ends of the transverse shift lever are arranged on the shell; a self-locking pin assembly is fixedly arranged in the shell, and a steel ball is arranged between the self-locking pin assembly and the gear engaging end.

Preferably, the self-locking pin assembly comprises a self-locking pin and a screw plug, a self-locking spring is arranged between the self-locking pin and the screw plug, and the self-locking pin and the screw plug are both inserted into the shell; the steel ball is arranged between the self-locking pin and the gear engaging end.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses an integrated form shifting block, which comprises a reverse gear return inclined plane, a first and a second gear positioning inclined plane, a first and a second gear return inclined plane, a fifth and a sixth gear return inclined plane, a neutral gear position inclined plane (two), and a shift self-locking inclined plane (two), wherein self-locking, gear selecting balance and reverse gear hand feeling functions are integrated into a whole; the gear engaging shifting block integrates a plurality of gear engaging inclined planes, so that gear engaging operation is completed through one gear engaging shifting block, and the whole gear engaging device occupies small space.

Furthermore, the included angle between the two gear engaging self-locking inclined planes is 60 degrees, so that after the shifting block is engaged into a gear, the steel ball generates self-locking force on the shifting block to prevent the gear of the gearbox from falling; meanwhile, certain resistance is generated during gear shifting, and gear shifting hand feeling is enhanced.

Furthermore, the included angle between the inclined planes of the two neutral positions is 90 degrees, so that the shifting block is positioned at the neutral position through the steel ball; meanwhile, when the shifting block is in gear, the steel ball generates certain resistance to the shifting block, and the gear-shifting hand feeling is enhanced.

Furthermore, the left side of the reverse gear return inclined plane is longer than the right side, so that after reverse gear is picked, the steel ball generates return force on the shifting block, and the shifting block can return to a neutral gear position.

Furthermore, the left side of the first-gear and second-gear positioning inclined plane is longer than the right side, so that when one gear and two gears are selected, the inclined plane generates a suddenly increased resistance to the steel ball, and the shifting head can accurately find the position of the first gear and the second gear.

Furthermore, the left side of the first-gear and second-gear return inclined plane is longer than the right side, so that after the first gear and the second gear are picked, the steel ball generates a return force on the shifting block, and the shifting block can return to a neutral position.

Furthermore, the left side edge of the five-six gear return inclined plane is shorter than the right side edge, so that after the five-six gear is picked, the steel ball generates a return force on the shifting block, and the shifting block can return to a neutral position.

Furthermore, the two central surfaces penetrate through the axis of the cylindrical pipe, so that the whole shifting block is uniformly stressed during gear engaging.

Furthermore, the whole gear shifting block is fixedly arranged in a shell of the gearbox through a transverse gear shifting rod.

Furthermore, the steel ball moves through the self-locking spring, and then gear shifting is achieved.

[ description of the drawings ]

Fig. 1 is a front view of the structure of the gear shifting block in the transmission case;

FIG. 2 is a side view (section E-E) of the present invention in the form of a gear shift lever;

FIG. 3 is a schematic structural view of the present engaging shifting block;

3 fig. 3 4 3 is 3 a 3 three 3- 3 dimensional 3 view 3 of 3 the 3 shift 3 lever 3, 3 in 3 which 3 ( 3 a 3) 3 is 3 a 3 front 3 view 3, 3 ( 3 b 3) 3 is 3 a 3 sectional 3 view 3 taken 3 on 3 the 3 section 3 a 3- 3 a 3, 3 and 3 ( 3 c 3) 3 is 3 a 3 sectional 3 view 3 taken 3 on 3 the 3 section 3 b 3- 3 b 3. 3

FIG. 5 is a cross-sectional view of the catch end;

FIG. 6 is another cross-sectional view of the catch end;

FIG. 7 is a schematic diagram of the shift lever being engaged in different gears, wherein (a) is shown as N, and (b) is shown as R/1/3/5, and (c) is shown as 2/4/6.

Wherein: 1-a shell; 2-a lateral shift lever; 3-a gear shifting block; 4-self-locking pin assembly; 5-reverse gear return inclined plane; 6-a first and second gear positioning inclined plane; 7-a second gear return inclined plane; 8-five-six gear return inclined plane; 9-neutral position ramp; 10-engaging a gear self-locking inclined plane; 11-self-locking spring; 12-self-locking pin; 13-a plug screw; 14-steel balls; 15-cambered surface groove; 16-a first cylindrical trough; 17-a second cylindrical groove; 18-a cylindrical tube; 19-a shifting block; 20-a first via; 21-a catch end; 22-a second via; 23-left side; 24-right side; 25-upper surface; 26-lower surface; 27-a first central plane; 28-a second central plane; 29-a first plane; 9-1-a first edge; 9-2-a second side; 9-3-third edge; 9-4-fourth edge.

[ detailed description ] embodiments

The present invention will be described in further detail with reference to the accompanying drawings:

in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and encompass, for example, both fixed and removable connections; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 and 2, the utility model discloses an integrated gear shifting block, wherein a gear shifting block 3 belongs to an operating device assembly, the operating device assembly comprises a shell 1, a transverse gear shifting rod 2, a gear shifting block 3 and a self-locking pin assembly 4, a cavity is arranged in the shell 1, a first through hole 20 is arranged at the lower end of the shell 1, and the first through hole 20 is communicated with the cavity of the shell 1; the transverse gear shifting rod 2 penetrates through the cavity, two ends of the transverse gear shifting rod 2 are fixedly arranged on the shell 1, and the transverse gear shifting rod 2 can rotate on the shell 1 along the axial direction of the shell; the outer surface of the transverse gear shift lever 2 is provided with a spline along the axial direction of the transverse gear shift lever, the gear engaging shifting head 3 penetrates through the transverse gear shift lever 2, the gear engaging shifting head 3 is in spline fit with the transverse gear shift lever 2, and the bottom end of the transverse gear shift lever 2 is in contact with the self-locking pin assembly 4; the self-locking pin assembly 4 is assembled on the shell 1, and the self-locking pin assembly 4 comprises a self-locking spring 11, a self-locking pin 12, a screw plug 13 and a steel ball 14; the whole self-locking pin 12 is inserted into a first through hole 20 at the lower end of the shell 1, one end of the self-locking pin 12 is provided with an arc groove 15, a steel ball 14 is placed in the arc groove 15, and the steel ball 14 can rotate in the arc groove 15; the other end is provided with a cylindrical groove body which is a first cylindrical groove 16, the cross section area of the lower end of the screw plug 13 is larger than that of the upper end, the upper end of the screw plug 13 is inserted into the first through hole 20, the upper end of the screw plug 13 is provided with a second cylindrical groove 17, and the upper end of the self-locking spring 11 is arranged in the first cylindrical groove 16 and the second cylindrical groove 17 at the lower end.

Referring to fig. 3 and 4, the gear engaging shifting block 3 comprises a cylindrical pipe 18, a shifting block 19 and a gear engaging end 21 which are integrally formed, wherein a central plane of the shifting block 19 along the vertical direction thereof is set as a first central plane 27, and a central plane of the gear engaging end 21 along the length direction thereof is set as a second central plane 28; the first central plane 27 and the second central plane 28 are perpendicular to each other, and the two central planes intersect at the axis of the cylindrical tube 18, the axis of the cylindrical tube 18 simultaneously passes through the first central plane 27 and the second central plane 28, the central plane of the engaging end 21 along the width direction thereof is a third central plane, and the third central plane is perpendicular to the first central plane 27, the second central plane 28 and the axis of the cylindrical tube 18. The cylindrical pipe 18 is provided with a second through hole 22 along the axis, a spline along the axis is arranged on the inner wall of the second through hole 22, the second through hole 22 is sleeved outside the transverse shift lever 2, and the spline on the inner wall of the second through hole 22 is matched with the spline of the transverse shift lever 2, so that the transverse shift lever 2 drives the gear shifting head 3 to rotate when rotating; the shifting block 19 is arranged on the outer wall of the cylindrical pipe 18, the inner end face of the gear engaging end 21 is fixedly arranged on the outer wall of the cylindrical pipe 18, and a plurality of inclined planes are arranged at the other end;

referring to fig. 3, the inner end surface of the engaging end 21 is fixedly disposed on the outer wall of the cylindrical tube 18, two side surfaces and the upper and lower end surfaces of the engaging end 21 are both flat surfaces, and the side surface of the engaging end 21 on the left side of the outer end surface is set as a left side surface 23, correspondingly a right side surface 24, the end surface on the upper portion of the outer end surface is set as an upper surface 25, and the lower portion of the outer end surface is set as a lower surface 26, in the direction from the outer end surface of the engaging end 21 to the inner end surface thereof, based on the outer end surface of the engaging end 21; the upper surface 25 and the lower surface 26 are symmetrical with respect to a second central plane 28. The present invention is described with reference to this direction unless otherwise specified. The outer end face of the gear engaging end 21 comprises 8 planes, namely a reverse gear return inclined plane 5, a first gear positioning inclined plane 6, a second gear return inclined plane 7, a fifth gear return inclined plane 8, two neutral position inclined planes 9 and two gear engaging self-locking inclined planes 10.

The two gear engaging self-locking inclined planes 10 are composed of 8 planes and comprise an upper gear engaging self-locking inclined plane 10 and a lower gear engaging self-locking inclined plane 10, the two gear engaging self-locking inclined planes 10 are both rectangular, the upper edge part of the upper gear engaging self-locking inclined plane 10 is connected with the outer edge part of the upper surface 25, the left edge part is connected with the outer edge part of the left side surface 23, and the right edge part is connected with the outer edge part of the right side surface 24; the lower edge portion is connected to the upper neutral position ramp 9. The upper edge of the lower engaging self-locking inclined plane 10 is connected with the lower neutral position inclined plane 9, the left edge is connected with the outer edge of the left side 23, the right edge is connected with the outer edge of the right side 23, and the two engaging self-locking inclined planes 10 are in mirror symmetry relative to the second central plane 28.

Referring to fig. 4, the two neutral position ramps 9 include an upper neutral position ramp 9 and a lower neutral position ramp 9, both being irregular planes, mirror symmetric with respect to the second central plane 28; the length directions of the two neutral position inclined planes 9 close to the edges of the second central plane 28 can be divided into a first edge 9-1, a second edge 9-2, a third edge 9-3 and a fourth edge 9-4 which are sequentially connected from left to right, an included angle between the first edge 9-1 and the second edge 9-2 is an obtuse angle, an included angle between the second edge 9-2 and the third edge 9-3 is an obtuse angle, and an included angle between the third edge 9-3 and the fourth edge 9-4 is an obtuse angle; the two first side parts 9-1 are symmetrical relative to the second central plane 28 and are respectively two side parts of the reverse gear return inclined plane 5; the two second side parts 9-2 are symmetrical relative to the second central plane 28 and are respectively two side parts of the first and second gear positioning inclined planes 6; the two third side parts 9-3 are symmetrical relative to the second central plane 28 and are two side parts of the second gear return inclined plane 7 respectively; the two fourth side parts 9-4 are symmetrical relative to the second central plane 28 and are respectively two side parts of the five-sixth return inclined plane 8; the upper part of the neutral position inclined plane 9 at the upper part is connected with the gear engaging self-locking inclined plane 10 at the upper part, and the lower part is sequentially provided with a first side part 9-1, a second side part 9-2, a third side part 9-3 and a fourth side part 9-4 at the upper part; the lower part of the neutral position inclined plane 9 at the lower part is connected with the edge of the gear engaging self-locking inclined plane 10 at the lower part, and the upper part is sequentially a first edge part 9-1, a second edge part 9-2, a third edge part 9-3 and a fourth edge part 9-4 at the lower part.

Between the two neutral position inclined planes 9, a reverse gear return inclined plane 5, a first gear positioning inclined plane 6, a first gear return inclined plane 7 and a fifth and sixth gear return inclined plane 8 are arranged from left to right in sequence.

The left side edge of the reverse gear return inclined plane 5 is connected with the left side surface 23, the right side edge of the reverse gear return inclined plane is connected with the first gear positioning inclined plane 6, the upper edge part is a first edge part 9-1 at the upper part, and the lower edge part is a first edge part 9-1 at the lower part; the length of the left side of the reverse gear return inclined plane 5 is greater than that of the right side.

Referring to fig. 3, 4, 5 and 6, the second gear positioning inclined plane 6 is located on the right side of the reverse gear return inclined plane 5, the left side of the second gear positioning inclined plane 6 is the right side of the reverse gear return inclined plane 5, the upper side is the second upper side 9-2, the lower side is the second lower side 9-2, and the right side is the left side of the second gear return inclined plane 7; the length of the left side of the first and second gear positioning inclined planes 6 is greater than that of the right side.

Referring to fig. 3, 4, 5 and 6, the second-gear return inclined plane 7 is located on the right side of the second-gear positioning inclined plane 6, the left side of the second-gear return inclined plane 7 is the right side of the second-gear positioning inclined plane 6, the upper side is the upper third side 9-3, the lower side is the lower third side 9-3, and the right side is the left side of the fifth-sixth gear return inclined plane 8; the length of the left side edge of a second return inclined plane 7 is greater than that of the right side edge.

Referring to fig. 3, 4, 5 and 6, the fifth-sixth-gear return inclined plane 8 is located on the right side of the second-gear return inclined plane 7, the left side of the fifth-sixth-gear return inclined plane 8 is the right side of the second-gear return inclined plane 7, the upper side is the fourth side 9-4 of the upper portion, the lower side is the fourth side 9-4 of the lower portion, and the right side is connected with the right side 24; the length of the left side of the five-sixth gear return inclined plane 8 is smaller than that of the right side.

Referring to fig. 3, 4, 5 and 6, it can be seen that, because of the angular relationship between the respective planes, the entire outer end surface forms a structure in which the upper and lower portions are outwardly convex and the middle portion is inwardly concave; specifically, the angle between the upper gear engaging self-locking ramp 10 and the upper surface 25 is greater than 90 °, the angle between the lower gear engaging self-locking ramp 10 and the lower surface 26 is greater than 90 °, see fig. 5, and the angle formed by the extension surfaces of the two gear engaging self-locking ramps 10 is 60 °. The angle between the extension of the inclined planes 9 in the two neutral positions is 90 °. Referring to fig. 4, the edge where the second-gear return slope 7 and the fifth-sixth-gear return slope 8 intersect is set in a first plane 29, and the first plane 29 is parallel to the left side surface 23 and the right side surface 24.

The working process is as follows:

referring to fig. 4 (b), when selecting a gear, the shift lever 3 is axially moved along the lateral shift lever 2. When the 1/2 gear is selected, the steel ball 14 on the self-locking pin assembly 4 is simultaneously contacted with two surfaces, namely a first gear positioning inclined plane 6 and a second gear return inclined plane 7, and the steel ball generates return pressure on the first gear return inclined plane 7, so that the shifting block can be returned by gear selection; when the shifting block is in a free state, the steel ball 14 is simultaneously contacted with the first-gear return inclined plane 7, the fifth-gear return inclined plane 8 and the two neutral gear position inclined planes 9, and the shifting block is just positioned at a 3/4 gear position; when the 5/6 gear is selected, the steel ball 14 is in contact with the five-six gear return inclined plane 8, and the steel ball generates return pressure on the five-six gear return inclined plane 8, so that the shifting block can be returned to the position for selecting the gear.

Referring to the diagram (a) in fig. 7, in neutral (N), the steel ball on the self-locking pin assembly 4 is simultaneously in contact with a second-gear return inclined plane 7, a fifth-sixth-gear return inclined plane 8 and two neutral position inclined planes 9, which are four planes in total.

Referring to the diagram (b) in FIG. 7, when the R/1/3/5 gear is engaged, the steel ball 14 is contacted with the engaging self-locking inclined plane 10 at the lower part;

referring to the figure (c) in fig. 7, when 2/4/6 gear is engaged, the steel ball 14 is contacted with the engaging self-locking inclined plane 10 at the upper part;

when the gear is engaged, the gear engaging shifting head 3 axially rotates along the transverse gear shifting rod 2, and the self-locking pin assembly 4 passes through the neutral gear position inclined plane 9 and finally contacts with the gear engaging self-locking inclined plane 10 to generate pressure and play a self-locking role.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The integrated gear shifting block is characterized by comprising a cylindrical pipe (18), wherein the cylindrical pipe (18) is fixedly provided with a shifting block (19) and a gear shifting end (21), the vertical central plane of the shifting block (19) is a first central plane (27), the central plane of the gear shifting end (21) along the length direction of the gear shifting end is a second central plane (28), and the first central plane (27) and the second central plane (28) are perpendicular to each other;

the outer end face of the gear engaging end (21) comprises an upper gear engaging self-locking inclined plane (10) and a lower gear engaging self-locking inclined plane (10), the upper side edge of the upper gear engaging self-locking inclined plane (10) is connected with the upper surface (25) of the gear engaging end (21), and the lower side edge of the upper gear engaging self-locking inclined plane (10) is connected with an upper neutral position inclined plane (9); the lower side edge of the lower gear engaging self-locking inclined plane (10) is connected with the lower surface (26) of the gear engaging end (21), and the upper side edge of the lower gear engaging self-locking inclined plane (10) is connected with the lower neutral position inclined plane (9); a reverse gear return inclined plane (5), a first gear positioning inclined plane (6), a second gear return inclined plane (7) and a fifth-sixth gear return inclined plane (8) are sequentially arranged between the two neutral gear position inclined planes (9) from the left side to the right side of the outer end face of the gear engaging end (21);

the included angle between the upper gear engaging self-locking inclined plane (10) and the upper surface (25) is an obtuse angle, and the included angle between the lower gear engaging self-locking inclined plane (10) and the lower surface (26) is an obtuse angle; an included angle between the upper gear engaging self-locking inclined plane (10) and the upper neutral position inclined plane (9) is an acute angle, and an included angle between the lower gear engaging self-locking inclined plane (10) and the lower neutral position inclined plane (9) is an acute angle;

the included angle between the reverse gear return inclined plane (5) and the first and second gear positioning inclined planes (6) is an obtuse angle, the included angle between the first and second gear positioning inclined planes (6) and the first and second gear return inclined planes (7) is an obtuse angle, and the included angle between the first and second gear return inclined planes (7) and the fifth and sixth gear return inclined planes (8) is an obtuse angle.

2. An integrated gearshift head according to claim 1, wherein the angle between the extension planes of the two gearshift self-locking ramps (10) is 60 °; the two gear engaging self-locking inclined surfaces (10) are mirror-symmetrical relative to the second central surface (28).

3. An integrated gearshift head according to claim 1, characterized in that the angle between the extension planes of the two neutral position ramps (9) is 90 °; the two neutral position ramps (9) are mirror-symmetrical with respect to the second central plane (28).

4. An integrated gearshift lever according to claim 1, wherein the reverse return ramp (5) is longer on the left side than on the right side.

5. An integrated gearshift knob according to claim 1, wherein the second positioning slope (6) is longer on the left side than on the right side.

6. An integrated gearshift knob according to claim 1, wherein the second return inclined surface (7) has a longer left side than a right side.

7. An integrated gearshift head according to claim 1, characterized in that the five-six return ramps (8) are shorter on the left side than on the right side.

8. An integrated gearshift head according to claim 1, wherein the axis of the cylindrical tube (18) is on both the first (27) and second (28) central planes.

9. The integrated gearshift head according to any one of claims 1 to 8, wherein the cylindrical tube (18) is splined with the lateral shift lever (2), the cylindrical tube (18) is sleeved on the lateral shift lever (2), and both ends of the lateral shift lever (2) are arranged on the housing (1); a self-locking pin assembly (4) is fixedly arranged in the shell (1), and a steel ball (14) is arranged between the self-locking pin assembly (4) and the gear hanging end (21).

10. The integrated gearshift head according to claim 9, wherein the self-locking pin assembly (4) comprises a self-locking pin (12) and a plug screw (13), a self-locking spring (11) is arranged between the self-locking pin (12) and the plug screw (13), and both the self-locking pin (12) and the plug screw (13) are inserted into the housing (1); the steel ball (14) is arranged between the self-locking pin (12) and the gear engaging end (21).

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